2nd Symposium on Texture and Microstructure Analysis
SOTAMA’2007
26-28 September, 2007 in Cracow, POLAND
Macro- and micro-structure characteristics of advanced materials have been becoming a more and more useful research tool. However, incessant technological progress requires still new investigation concepts and experimental techniques. There are new application horizons open before one of the most sophisticated yet not sufficiently used material characteristics - like space arrangement (crystallographic texture), internal stresses or morphological relationships. Here belong inhomogeneous structures, like functionally graded materials characterized by spatial irregularity of composition and/or microstructure – which can ensure the required control over specific thermal, structural and functional properties.
In recent years, noticeable advancements have been made in experimental as well as theoretical methods in the above mentioned field. It was reflected during the 1st SOTAMA-FGM (Symposium on Texture and Microstructure Analysis of Functionally Graded Materials) held in Cracow in 2004. It is organizers' intention was to turn the 2nd Symposium of this kind held also in Cracow, September 26-28, 2007 termed SOTAMA’2007 into a real, integrated forum for the exchange of ideas and experiences among highly interdisciplinary scientists and engineers from universities, industry and government laboratories.
Deadlines
March 31, 2007 ..... pre-registration and abstract submission
May 1, 2007 .......... abstract acceptance
July 1, 2007 ............ registration and fee payment
Sept. 26, 2007 ........ early registration at conference desk from 14:00
Download of Scientific Program (For viewing the Scientific Program you need Acrobat Viewer on your PC).
Link: http://sotama.imim.pl
Proceedings
of the
2nd International Conference on Texture and Anisotropy of Polycrystals
ITAP-2
Metz,
France, July 7-9, 2004
Editors: Claude Esling, Michel Humbert, Robert A. Schwarzer and Francis Wagner
Solid
State Phenomena Vol. 105 (1998)
Trans Tech Publications Ltd., Switzerland
ISBN
0-87849-802-8
The
abstracts and order forms can be found on http://www.scientific.net
(Klick there on Textures & Anisotropy at the bottom of the left column.)
Foreword
The Second International Conference on Texture
and Anisotropy of Polycrystals, ITAP-2, was held in Metz, France, from July 7 -
9, 2004, following the intentions and guidelines of ITAP-1 in Clausthal 1997.
Interest
in texture studies in materials science - both from a practical and a
theoretical point of view - has many reasons. First of all, texture is one of
the fundamental parameters, in addition to crystal structure, lattice defects
and element composition, to characterize solid state materials since nature
strongly prefers the crystalline state to the amorphous state, and textured
materials to single crystals as well as to polycrystals with random
distribution of grain orientations. This is true for natural matter such as
minerals, rocks, soil, wood and bone in the same way as for man-made materials
as for instance metals, semi-conductors, ceramics and partly crystalline
polymers. It is often quite difficult, indeed, to either produce a single
crystal or a completely random sample. Texture changes are indicative of solid
state processes of all kind; hence texture can
be utilized to advantage as a fingerprint of proper use or misuse of a work-piece in failure
analysis. Texture enables the geologist to shed light on the processes of rock
forming which took place in early days of the history of Earth. The knowledge
of texture is a prerequisite for all quantitative techniques of materials
characterization which are based on the interpretation of diffraction peak
intensities such as the determination of the content of residual austenite in
steel, the determination of residual stress by X-ray diffraction, and structure
analysis from powder diffraction patterns. Most important, however, is texture
as the link between anisotropic properties of single crystals and those of
polycrystalline material.
Noticeable
advancements in experimental as well as in theoretical methods of texture
analysis have been made during the years since ITAP-1. It was the purpose of
the second conference, now held in Metz, to provide a survey on the state of
the art in texture analysis as well as to discuss some typical applications.
Nearly 110 contributions have been presented during 11 parallel sessions in
oral form or as posters. This proceedings volume contains 74 papers which cover
almost all aspects of texture research. In a few cases the authors preferred to
fuse their presentations at the conference in one comprehensive paper. The
proceedings volume thus may serve as a guide to this challenging field of
science.
An
Honorary Colloquium on the occasion of the 75th anniversary
of Hans-Joachim Bunge was celebrated on the opening
day of the conference with a series of plenary lectures followed by a jolly
birthday party in the evening.
When the proceedings were almost ready for
print, Hans-Joachim Bunge's unexpected sudden decease has cast a shadow of deep
sadness over this so successful scientific event. Hans-Joachim Bunge passed
away on November 28, 2004. It was univocal consensus of the authors to dedicate
this proceedings volume to him, our "Great Man" of quantitative texture
analysis.
The Editors
Obituary Notice for Hans-Joachim Bunge
29 July 1929 - 28 November 2004
Prof. (em.) Dr.
Dr. h.c. Hans-Joachim Bunge died untimely on November 28, 2004, at the age of
75 years from a cerebral apoplexy. He is survived by his wife Helga and his son
Hans-Peter.
Hans-Joachim
Bunge was born on July 29, 1929 in Zerbst, a small town situated between
Magdeburg and Dessau in Eastern Germany.After having finished high-school in 1946, he was a precision mechanic
apprentice. In 1947, he entered the Martin-Luther-University at Halle as a
student of physics. In 1955, he received his Dr. rer. nat. degree with the Ph.
D. Thesis "Magnetic Anisotropy of Cold Rolled Iron-Nickel Alloys"
from the Martin Luther University at Halle. From then on his scientific
interests have been centered on crystal texture. In 1964, he was awarded his
Dr. habil. degree from the Humboldt University of Berlin for the Habilitation
Thesis "On the Representation of Textures".
Hans-Joachim Bunge was research scientist at the Physics
Department of the University of Traffic, Dresden, from 1953 - 1955 where he was
investigating hard magnetic materials. From 1955 - 68 followed a fruitful
period of scientific work at the Institute of Crystal Structure Research of the
(East) German Academy of Sciences in Berlin, dedicated to polycrystal X-ray
diffraction, texture analysis and technological applications. In 1968 he
returned to Dresden to the Central Institute of Solid State Physics and
Materials Research of the German Academy of Sciences, where he was engaged in
texture analysis and neutron diffraction. His promising career as a scientist
in East Germany came to an abrupt halt when he and his family tried, in vain,
to escape from ideological persecution. They were imprisoned and kept apart
from each other from 1974-75 when they were finally allowed to leave East
Germany. From 1975-1976, he was DFG fellow (German Research Foundation) with Prof.
Dr. Günter Wassermann in Clausthal-Zellerfeld and Prof. Dr. Rudi Wenk in
Berkeley. In 1976 he succeeded Günter Wassermann as Professor and Head of the
Institute of Physical Metallurgy of the Clausthal University of Technology.
From 1989-91, he was Dean of the Department of Metallurgy and Materials Science
of this university.
After his retirement in 1997, he found a supportive new
scientific home at the Institute of Physics and Physical Technology of the
Clausthal University of Technology. Until his last days, he supervised with
great enthusiasm a research project at the HASYLAB facilities in Hamburg,
financially supported by the German Research Foundation (DFG), on texture
analysis with hard synchrotron radiation.
Hans-Joachim
Bunge has achieved an outstanding scientific work. In 1965 he managed to solve,
independently with R.J. Roe, one of the greatest challenges of quantitative
texture research - the pole figure inversion - by developing the harmonic
series expansion method. In 1969 he published the basic treatise on
mathematical methods of pole figure inversion "Mathematische Methoden der
Texturanalyse". The extended and revised English edition of this book was
published in 1982 under the title "Texture Analysis in Materials Science".
It is still considered the comprehensive standard handbook in this field of
materials science. He was fond of bringing his expertise to the world. It had
been a tradition of his institute for many years to organize annual workshops
on texture analysis and related topics. He is the author or editor of 10 more
books on quantitative texture analysis and on anisotropic materials properties.
He has published more than 450 contributions to scientific journals and
conference proceedings. From 1986 to 2003, Hans-Joachim Bunge was the editor of
the journal "Textures and Microstructures". Since 1978, he was member
of the International Committee of ICOTOM. From 1985 to 2004, he was the speaker
of the Special Committee for Textures of the German Society of Materials (FA Texturen
der DGM).
In recognition of his scientific
achievements in materials science, Hans-Joachim Bunge received a number of
honors. He was awarded, for instance, the degree of a Doctor Honorary of the University of Metz (France) in 1979, the degree of a Professor
Honorary of the Beijing Polytechnic University (China) in 1993, the Honorary
Membership of the Czech Metal Science Society in 1995, and the Honorary
Membership of the Texture Society of India in 2000. In 2003, he received the
Carl-Hermann Medal of the German Society for Crystallography.
His life was committed to
science. Even within his activities he always had time for students and his
colleagues. He still had many plans for the future, both at work and personal.
Hans-Joachim Bunge was an affable, mild-mannered man of a uniformly cheerful
and gentle disposition. His loss will be grievously felt by a large circle of
friends and associates.
Robert
Schwarzer, TU Clausthal
Table of Contents
|
1. Lectures of the Honorary Colloquium |
|
|
Texture and Microstructure Imaging by the Moving Area Detector Method |
3 |
|
On the Use of Texture Analysis and Orientation Stereology to Investigate
Polycrystalline Materials |
15 |
|
Texture in Hot Extruded, Hot Rolled and Laser Welded Magnesium Base Alloys |
23 |
|
The Goss Texture Formation in Silicon Steels - Growth Selection or Oriented
Nucleation? |
29 |
|
|
|
|
Advances in Automatic TEM Based Orientation Mapping |
37 |
|
Residual Strain Parameters Determinable from a CBED Pattern |
43 |
|
Local Orientation Measurements in 3D |
49 |
|
In Situ Texture Analysis Using Hard X-Rays |
55 |
|
Residual Strain and Texture Measurements Using Neutron-TOF-Diffraction on a
Dolomite-Anhydrite Rock and a Quartz-Dunite Compound |
61 |
|
EPSILON-MDS - A Neutron Time-of-Flight Diffractometer for Strain
Measurements |
67 |
|
Texture Analysis with Area Detectors |
71 |
|
Study of Error Distribution in Measured Pole Figures |
77 |
|
Use of Neutron Diffraction for Describing Texture of Isostatically-Pressed
Molybdite Powders |
83 |
|
Distribution of Dislocation Density in Tubes from Zr-Based Alloys by X-Ray
Data |
89 |
|
Reaction Stresses among the Grains during Tensile Deformation of
Polycrystalline Metals |
95 |
|
Texture Control in Manufacturing of ULSI Devices |
101 |
|
Determination of Grain-Orientation-Dependent Stress in Coatings |
107 |
|
On the Calculation of the Eshelby Tensor and the Beauty of our Nature |
113 |
|
|
|
|
Crystallographic Relationships between FCC and BCC Crystals: A Study Using
EBSD Techniques |
121 |
|
Microtexture Analysis in Correlation with HCP Textured Regions Observed
in a Forged Near Alpha Titanium Alloy |
127 |
|
Variant Selection in Zr Alloys: How Many Variants Generated from one Beta
Grain? |
133 |
|
Crystallographic Phase Composition and Structural Analysis of Ti-Ni-Fe
Shape Memory Alloy by Synchrotron Diffraction |
139 |
|
Variant Orientation Distribution in a Near-? Ti-Al Alloy with a Lamellar
Microstructure |
145 |
|
Texture Evolution In Fe-1%Si as a Function of High Magnetic Field |
151 |
|
Local Orientation Gradient and Recrystallization of Deformed Copper |
157 |
|
Grain Boundary Character and Pinning Effect during Grain Growth of
Two-Phase Alloys |
163 |
|
Electric Field Annealing of 3104 Aluminium Alloy Sheets: Evolution of
Microstructure
and Texture |
169 |
|
Neutron Diffraction Texture Analysis of Grain-Oriented Steel Sheets |
175 |
|
The Influence of Texture and GBCD on Stress Corrosion and Intergranular
Corrosion in 2024 Aluminium Alloy |
181 |
|
Calculation of Magnetization and Phase Equilibrium in Fe-C Binary System
under a Magnetic Field |
187 |
|
|
|
|
Deformation Textures in FCC Metals Subjected to Frictional and to Abrasive
Wear |
195 |
|
Influence of Starting Textures on the Development of Texture and Microstructure
during Large Strain Hot Rolling of Pure Magnesium |
201 |
|
Regular Substructure Inhomogeneity of Textured Materials by the Example of
Rolled Ti-Ni Single Crystals |
207 |
|
Effect of the 0.1% Sc Addition on the Texture Development and Mechanical
Properties in Al-Zn-Mg-Cu-Mn Alloy |
213 |
|
Dislocation Activity and Slip Analysis Contributing to Grain Boundary Sliding
and Damage during Thermomechanical Fatigue in Dual Shear Lead-Free Solder Joint
Specimens |
219 |
|
The Effect of Texture on the Serrated Flow in Peak-Aged 2090 Al-Li Alloy |
227 |
|
Cross-Sectional Texture Gradients in Interstitial Free Steels Processed by
Accumulated Roll Bonding |
233 |
|
Microstructure and Texture of Shear Bands in Cold Rolled Silicon Steel
Single Crystals of Goss Orientation |
239 |
|
A Sharp Cube Texture in Warm Rolled and Subsequently Annealed Silver Sheet |
245 |
|
Simulation of Deformation Texture Evolution Using an Intermediate Model |
251 |
|
Effect of Cooling Condition after Warm Rolling on the Development of
Microstructure and Texture in an ELC Steel |
259 |
|
A Rapid Deformation Texture Model Incorporating Grain Interactions:
Application to Aluminium Hot Rolling Textures |
265 |
|
A New Perspective on the Mathematical Modeling of Highly Non-Linear
Anisotropic Plastic Flows in a Heterogeneous Solid |
271 |
|
Correlation of Texture and Plastic Anisotropy in the Al-Mg Alloy AA 5005 |
277 |
|
Modeling Texture Evolution during Rolling of Magnesium Alloy AZ31 |
285 |
|
Texture Development in Nd-Fe-V and Nd-Fe-B Alloys by Hot Forging in View of
Improving Permanent Magnet Properties |
291 |
|
Texture Investigations of
Zircaloy-4 Tubes by Neutron Diffraction |
297 |
|
Shear Texture Formation during High-Strain Torsion of Titanium Aluminides |
303 |
|
Microstructure and Texture in Copper Sheets after Reverse and Cross Rolling |
309 |
|
Texture and Microstructure Evolution during Cold Swaging and
Recrystallization of Oligocrystalline INCOLOY® MA 956 |
315 |
|
Local and Global Effects in Texture and Microstructure Observed after
Channel-Die Compression of Copper Single Crystals and after Cross-Rolling of
Copper Sheets |
321 |
|
Texture Gradient in ECAP Copper Measured by Synchrotron Radiation |
327 |
|
Pure Ni Single Crystal of Cube Orientation Deformed by Equal Channel
Angular Extrusion |
333 |
|
Rolling Texture of ECAP Processed Al and Cu |
339 |
|
Texture Evolution in FCC Metals during Equal Channel Angular Extrusion
(ECAE) as a Function of Stacking Fault Energy |
345 |
|
Oblique Cube Texture Formation in High Purity Aluminium during Equal
Channel Angular Pressing |
351 |
|
Texture Evolution in Commercially Pure Al during Equal Channel Angular
Extrusion (ECAE) as a Function of Processing Routes |
357 |
|
Strain Localization Observed during Shearing of Some Aluminium Alloys and
Texture Softening Predicted by FC Taylor and Advanced Lamel Model |
363 |
|
Simulating the Temper Rolling of Galvanized Steel |
371 |
|
|
|
|
Quantifying Domain Textures in Lead Zirconate Titanate Using 022, 202 and
220 Diffraction Peaks |
379 |
|
Combined Analysis of Bi2223 Superconducting Bulk Materials |
385 |
|
Effects of Dielectric Roughness on Texture of Both PVD Seed Layers and EP
Copper |
391 |
|
Texture Transition in Ag-Pd Alloy Substrate for Superconducting Tapes |
397 |
|
Micro-Diffraction Studies of the Evolution of Textures in CVD-Grown Diamond
Films |
403 |
|
Temperature Dependence of the Texture of Sm-Co Thin Films |
409 |
|
Aluminium Matrix Texture and Particle Characterization in Al-Al3Ti
FGMs Produced by a Centrifugal Solid-Particle Method |
415 |
|
Texture Analysis of CVD Free-Standing Diamond Films |
421 |
|
Texture Measurements of Hydroxyapatite Crystallites at Bone-Implant
Interfaces in Sheep Tibia |
427 |
|
Growth Mechanism of Biaxially Aligned Magnesium Oxide Deposited by
Unbalanced Magnetron Sputtering |
433 |
|
Texture Analysis of Poly(vinyl Chloride) Foils |
439 |
|
Biaxially Aligned Yttria Stabilized Zirconia and Titanium Nitride Layers
Deposited by Unbalanced Magnetron Sputtering |
447 |
|
Textured YBaCuO Films Enhanced by Cold Rolling and Melt Growth Process in
Low Oxygen Partial Pressure |
453 |
|
Textures of Ferroelectric BLT Films for Semiconductor Memories by Electron
Backscatter Diffraction and Piezo-Response Force Microscope |
459 |
|
Three-Dimensional Microstructure of Thin Copper Foils Revealed by Ion Beam
Cutting and Electron Backscatter Diffraction (EBSD) |
465 |
| Author Index |
471 |
| Keyword Index |
475 |
A Center of Excellence in Nano- and Microscale Characterization and Development of Advanced Materials
"NAMAM CoE"
has been established, supported by the European Commission under the Fifth Framework Programme "Competitive and Sustainable Growth", at the Aleksander Krupkowski Institute of Metallurgy and Materials Science (IMIM) of the Polish Academy of Sciences (PAN) at Kraków (Poland).
Two work packages are explicitly focused on crystal texture and its applications that are
Work package 1
Advanced Texture and Microstructure Analysis
of Functional Gradient Materials
The main objective is the extension and intensification of scientific contacts
with renowned scientific centers to increase the effect of investigations
focused on Functional Gradient Materials (FGM) that are characterized by
structure and texture inhomogeities. The investigations are based on non-destructive
X-Ray Texture Tomography (XTT), X-ray pole figure measurement, single orientation
measurement by electron diffraction, and synchrotron diffraction techniques.
Work package 2
Application of Advanced Electron Microscopy Techniques
for Materials Characterization
The objective is to broaden the field of application of modern transmission
and scanning electron microscopy in materials science. So far as crystal
texture is concerned, crystal orientation mapping by the automated evaluation
of Kikuchi patterns in the SEM as well as in the TEM is of prime interest.
The combination of variable pressure scanning electron microscopy
with crystal orientation measurement as well as with quantitative EDS microanalysis
will be used to study nanoceramics, ceramic glasses, polymers and biomaterials.
Scientific conferences, symposia and workshops are planned in the framework of the CoE.
Contact
Polska Akademia
Nauk Fax: (+48)12 637
2192 |
|
9-10 April 2003 Royal Microscopical Society
Conference and Workshop on Electron Backscatter Diffraction
University of Wales Swansea, Materials Research Centre, School of Engineering
Due to the popularity of previous EBSD workshops in the series, for the first time the meeting will extend over two days. It aims to provide a forum for the exchange of ideas between those interested or active in this field. There will be time for informal discussion and networking in addition to the formal presentation programme. Papers from the meeting will have the opportunity to be published in the Journal of Microscopy, subject to the normal refereeing process. Plus, there will be an opportunity to meet representatives from some of the leading equipment/software manufacturers in the field of EBSD and to obtain information on their products.
Deadline: Contributions are invited for the EBSD meeting, to be presented
orally or as a poster (approximately 200 words). Abstracts should be submitted
to the RMS office, to the address below or by email, before 15
February 2003.
Organiser: Prof. Valerie Randle,
University of Wales Swansea,Materials Research Centre, School of Engineering
Contact: The Royal Microscopical Society, 37/38 St Clements, Oxford
OX4 1AJ, UK.
Phone:(+44)1865 248768 Fax:
(+44) 1865 791237
Email: ###Karen@rms.org.uk### or ###v.randle@swansea.ac.uk###
(Please skipt ### when sending an e-mail. ### has been added against
spam mail crawlers.)
URL: http://www.rms.org.uk
10. April 2003
Sitzung des Fachausschusses "Texturen" der DGM
Die Sitzung des FA Texturen findet im Rahmen des International Workshops on "Hard Synchrotron X-Rays for Texture and Strain Analysis" im HASYLAB bei DESY in Hamburg, Notkestr. 85 statt.
Programm
. Zukünftiges Profl des FA Texturen
. Soll ein Unterausschuss "Einzelorientierungsmessung" eingerichtet
werden?
. Anträge auf Messzeit bei HASYLAB und HARWI
. Wahl eines neuen Vorsitzenden des FA Texturen
. Nächste Tagung ICOTOM in Brüssel
. Einrichtung einer Webseite des FA Texturen?
. Ergänzung der Adressenliste der FA-Mitglieder um die Email-Adressen
. Verschiedenes
Anmeldung: bei Prof. H.J. Bunge
Contact: Prof.em. H.J. Bunge, IPPT der TU Clausthal, Leibnizstr. 4, D-38678
Clausthal-Z.
Email: ###hans.joachim.bunge@rz.tu-clausthal.de###
(Bitte ### bei Kontaktaufnahme löschen. Wurde als Schutz gegen Spam-Mail-Crawler
hinzugefügt.)
9-11 April 2003
International Workshop
on Hard Synchrotron X-Rays for Texture and Strain Analysis
Deutsches Elektronen-Synchrotron, DESY, Hamburg,
Germany
Methods and applications in materials science, engineering, R&D
(Local and global textures, elastic and plastic strains, 3D XRD, stereology,
dynamics, materials properties.)
The scope of the workshop is to bring together hard X-ray instrumentalists and
potential users. Hard X-rays are defined as "synchrotron radiation with
an energy greater than or equal 50 keV." The workshop has equal focus on
characterisation at the macroscopic, grain and sub-grain scales.
Deadline for the submission of abstracts: January
15, 2003
Organiser: DESY Hamburg and GKSS Geesthacht
Contact: Dr. Jens Homeyer, HASYLAB at DESY, Notkestr. 85, D-22607 Hamburg,
Germany
Phone: (+49)40/8998-1715 Fax:
(+49)40/8998-4475
E-mail:###jens.homeyer@desy.de###
(Please skipt ### when sending an e-mail. ### has been added against spam mail
crawlers.)
URL: http://www-hasylab.desy.de/conferences/texturestrain/chooser.html
24 - 25 June 2003
Modern Texture Research on Engineering Materials
Max-Planck-Institut fuer Eisenforschung, Duesseldorf, Germany
A workshop will be organized on the occasion of the opening of the texture laboratory at the MPI Duesseldorf. 16 lectures on current topics in texture and microstructure research and on experimental techniques will be presented. Laboratory tours with demonstrations of advanced equipment will be offered.
Organiser: Max-Planck-Institut fuer Eisenforschung, Duesseldorf
Contact: Dr. Stefan Zaefferer, Max-Planck-Str. 1, D-40237 Duesseldorf,
Germany
Phone: (+49)211 6792-803 or -245 Fax:
(+49)211 6792-333
E-mail: ###zaefferer@mpie.de### or ###berens@mpie.de###
(Please skipt ### when sending an e-mail. ### has been added against spam mail
crawlers.)
URL: http://www.motex.mpie.de
(also for on-line registration)
1 - 3 July 2003
Orientierungsbestimmung mittels EBSD und seine industrielle Anwendung
Symposium in German language on orientation measurement by EBSD and its application in industry. Representatives of the manufactures of commercial systems (HKL Technology; Oxford Instruments; ThermoNoran; EDAX TSL) will present recent developments and potentials of this technique in R&D.
Organiser: Bundesanstalt für Materialforschung und -prüfung
(BAM), Berlin
Contact: Dr. Gert Nolze, BAM-Stammgelände, Unter den Eichen 87,
12205 Berlin-Lichterfelde, Germany
Phone: (+49)30 8104 3513
Fax: (+49)30 8104 1517
E-mail: ###Gert.Nolze@bam.de###
(Please skipt ### when sending an e-mail. ### has been added against spam mail
crawlers.)
URL: http://www.bam.de/kompetenzen/arbeitsgebiete/abteilung_5/fachgruppe_51/fg_51_medien/symposium_511.pdf
2-7 August 2003
Annual Microscopy Society
of America (MSA) Meeting
San Antonio, Texas
The meeting will include a session entitled
'Electron backscatter diffraction - new developments and applications'
organised by Joe Michael (Sandia National Laboratory) and Valerie Randle (University of Wales Swansea).
URL: www.msa.microscopy.com
5-10 October 2003
9th
Frontiers of Electron Microscopy in Materials Science 2003 (FEMMS2003)
Claremont
Resort and Spa, Berkeley, CA
The Wednesday morning session "EBSD and Diffraction Methods" is sponsored by Thermo NORAN and chaired by M. Kumar and A. Schwartz. Electron backscatter diffraction (EBSD) is the focus of the first three presentations by David Field of Washington State University, Angus Wilkinson of Oxford University, and Joe Michael of Sandia National Laboratory. The first two speakers will introduce the idea of using EBSD to study deformation and strain in materials and Joe Michael will discuss the latest developments in phase identification. The second half of the session will focus on the use of convergent beam electron diffraction (CBED) to quantify lattice strains.
Deadline for the submission of abstracts: The abstract deadline for
submissions via Web form is August 1, 2003. http://femms2003.llnl.gov/Abstract/abstracts.html
Be sure to submit your abstract early. All oral presentations
are invited. All submitted contributions will be considered for the Poster Session.
Organizer:
Lawrence Livermore National Laboratory
Contact: Wayne E. King,
LLNL,
Chemistry & Materials Science Directorate, P.O. Box 808; L-356
Livermore,
CA 94550
Email: FEMMS2003@llnl.gov
URL: http://femms2003.llnl.gov/
4-5 December 2003
Advanced
X-Ray Techniques in Reasearch and Industry
Kanchanbagh, Hyderabad - India
There will be 10 - 12 invited reviews and about 12 - 15
contributed papers on various apsects of X-ray techniques and applications in
materials development. Topics to be covered are:
1.
Advanced X-Ray Crystallography
2. Advanced X-Ray
Techniques (Hard X-Rays and X-Ray Scanning Apparatus)
3.
High Temperature and Single Crystal XRD
4. Rietveld
Analysis
5. High Resolution XRD
6.
Small Angle X-Ray Scattering
7. Residual Stress and
Retained Austenite Measurement
8. Applications to
Surface and Nano Materials.
A pre-conference workshop will be organized on
December 3, 2003. This workshop is planned for more interactive participation
from students and participants from industries. The workshop will cover fundamentals,
qualitative and quantitative X-ray analysis and demonstrations.
Deadline for registration: 10 September 2003
Organizer:
DMRL
Contact: Dr. Ashok Kumar Singh, DMRL, P.O. Kanchanbagh
Hyderabad-500
058, India
Phone: (+91)-40-24586488 Fax:
(+94)-40-24340683/1439
Email: xtri03@yahoo.co.in
Texture Events
Workshop on "TEXTURE AND MICROSCOPY"
Metz, 20 to 21 June, 2002
Final Program
The SF2M commission «Texture et Anisotropie», in cooperation with the Working Group “Textur” of the DGM and the Max-Planck-Institut Düsseldorf organizes a workshop on "Texture and Microscopy" in Metz, France, on June 20 and 21, 2002.
Venue: The workshop will take place in the Amphi Pilâtre.
This lecture room is located in the building of the UFR MIM on the right hand
side at the entrance to the Ile du Saulcy
The island of the Université de Metz is a picturesque place in the Moselle
River at a foot-walk distance from the center of Metz. Please follow the traffic
signs "Université".
Some rooms have been booked in advance in the hotels
- Hotel IBIS Metz Centre Cathédrale
- Hotel Albion
Please confirm your room reservation within one week through LM2P: bonora@letam.sciences.univ-metz.fr.
Wednesday,
June19, 2002
18:00 - 22:00 |
Welcome Meeting of the participants at the
Hotel IBIS Metz Centre Cathédrale. |
Thursday, June 20, 2002
The first day (June 20) will be dedicated to review lectures.
09:00-09:30 |
H.J. Bunge (TU Clausthal) |
Orientation stereology and its influence on materials properties. |
09:30-10:00 |
D. Solas, Th. Baudin, R. Penelle (Univ. Paris-Sud Orsay) |
Simulation of recrystallization from experiemental microstructures characterized by TEM and OIM |
10:00-10:30 |
R. Schwarzer (TU Clausthal) |
Advanced automated EBSD systems, basics, limitation and future trends. |
10:30-11:00 |
Coffee Break |
Poster Session |
11:00-11:30 |
S. Zaefferer (MPI Düsseldorf) |
The investigation of the correlation between texture and microstructure on a submicrometer scale in the TEM. |
11:30-12:00 |
N. Bozzolo, N. Gey (Univ. Metz) |
Some remarks about acquisition and post-treatment of EBSD data. |
12:00-14:00 |
Common Lunch at the university restaurant (Please, confirm lunch reservation.) |
|
14:00-14:30 |
P. Van Houtte (KU Leuven) |
Example of new applications of EBSD studies on aluminium alloys interconnects, substructure formation during hot and cold working |
14:30-15:00 |
F. Wagner (Univ. Metz) |
Treatment of EBSD data in ODF determination. |
15:00-15:30 |
J.-S. Lecomte (Univ. Metz) |
Determination of deformation mechanisms using TEM and SEM. |
15:30-16:00 |
Coffee Break |
Poster Session |
16:00-17:00 |
Round Table Discussion on texture and microstructure studies by SEM and TEM |
|
17:00-18:30 |
- Demonstration
of orientation determination by SEM and TEM (S. Dominiak, J.-S.
Lecomte) |
|
19:00 |
Reception at the town hall of Metz |
|
Dinner is at your initiative.
Friday, June 21, 2002
The second day (June 21) will be dedicated to the presentation
of actual work on electron microscopy applied to texture studies.
Oral presentations:
09:00-9:30 |
H.J. Bunge (TU Clausthal) |
In-volume orientation imaging with high-energy synchrotron radiation. |
09:30-10:00 |
J.C. Kuo, S. Zaefferer (MPI Düsseldorf) |
The relation between macro- and microscale deformation and the tools for their investigation. |
10:00-10:30 |
I. Thomas , S. Zaefferer (MPI Düsseldorf) |
High resolution EBSD investigations of deformed and partially recrystallized IF steel. |
10:30-11:00 |
Coffee Break |
Poster Session |
11:00-11:30 |
L. Delannay, P. Van Houtte (KU Leuven) |
Observation and modelling of the orientation gradients within grains of an aluminium polycrystal. |
11:30-12:00 |
E. Zimmermann, F. Friedel (Thyssen-Krupp Stahl AG, Duisburg) |
Application of orientation imaging microscopy in steel industry. |
12:00-14:00 |
Common Lunch at the university restaurant (Please, confirm lunch reservation.) |
|
14:00-14:30 |
K.G. van den Boogaart (TU BA Freiberg) |
Precision of texture related quantities inferred from EBSD measurements. |
14:30-15:00 |
B. Gardiola, C. Esling, M. Humbert, K.-E. Hensger (Univ. Metz) |
EBSD study of the g to a phase transformation in a CPS-HSLA steel. |
15:00-15:30 |
Z. Xiang, C.S. He, Y.D. Zhang, X. Zhao, L. Zuo (NE Univ. Shenyang) |
Effect of high magnetic field annealing on the development of recrystallization texture in interstitial-free (IF) steel sheet. |
Poster contributions:
P1 |
F. Barcelo, Y. DeCarlau (CEA Saclay) |
Influence of prior austenitic grain size on the microstructure of 9% Co martensitic steel, characterized by EBSD. |
P2 |
J.-L. Bechade, M.-H. Mathon, H. Réglé, A. Alamo (CEA Saclay) |
Multi-scale texture analysis of oxide dispersion strengthened (ODS) Fe alloys. |
P3 |
Ph. Gerber, R. Chiron, J. Tarasiuk, B. Bacroix (Univ. Paris13) |
Study of the mechanisms of static recrystallization after in-situ annealing in the SEM. Application to fcc metals, copper and copper alloys by EBSD. |
P4 |
J.-S. Lecomte, G. Vincent, P. Laheurte, C. Esling (Univ. Metz) |
In situ tensile tests in the SEM. |
P5 |
Ch.-M. Park, G. Gottstein (RWTH Aachen) |
Variant selection during the diffusion controlled a to g phase transformation. |
P6 |
V. Richard, R. Chiron (Univ. Paris 13) |
Combined TEM observations and SEM-EBSD measurements for a complete analysis of microstructural evolution during plastic deformation. |
P7 |
Y.H. Sha , X.Y. Gao, X. Zhao, L. Zuo (NE Univ. Shenyang) |
Effects of electric annealing on grain orientation and misorientation in Fe-3%Si. |
P8 |
C.W. Sinclair, F. Robaut, L. Maniguet, J.D. Mitheux, J.H. Schmitt, Y. Brechet (INP Grenoble) |
Recrystallization and texture in a ferritic stainless steel. |
P9 |
M. Slamova, P. Sláma, F. Robaut , M. Veron (INP Grenoble) |
Differences in the microstructure and texture of Al-Mg sheets produced by twin-roll continuous casting and DC casting. |
P10 |
L.S. Tóth, A. Hildenbrand, A. Molinari (Univ. Metz) |
Dynamic recrystallisation in adiabatic shear bands. |
P11 |
G. Wang, S.D. Wu, C. Esling, L. Zuo (NE Univ. Shenyang and Univ. Metz) |
Microstructural characteristics by EBSD and ECC in pure Cu ECAE processed samples. |
P12 |
E. Novillo, J.L. Bocos, M.M Petite, A. Iza-Mendia, I. Gutiérrez (CEIT and Univ. de Navarra, San Sebastian) |
Texture
and microtexture evolution in an ULC steel during recrystallization. |
P13 |
R. Chiron (Univ. Paris 13) |
Technical improvements in thermomechanical in situ experiments for high temperature plastic deformation and recrystallization studies in the SEM. |
P14 |
N. Gey, M. Humbert, E. Gautier, J.L. Bechade (Univ. Metz and CEA Saclay) |
Analysis of the beta to alpha variant selection in a Zy-4 rod by means of specific crystal orientation maps. |
Lectures and discussions will take place in English.
The workshop is organized on a non-profit basis.
Participation to the organization costs: 30 €. Price of a meal at the university restaurant: 15 €.
On-line registration and updated information can be found on the Web site of SF2M.
Organisation Committee
Baudin T. – Penelle R. (Univ. Paris-Sud); Bunge H.J. – Schwarzer R. (TU Clausthal); Esling C. – Humbert M. (Univ. Metz); Raabe D. – Zaefferer S. (MPI Düsseldorf); Zhao X. – Zuo L. (NE University Shenyang).
Local Organisation
Prof. Dr. Claude Esling
LETAM CNRS UMR 7078, ISGMP
Université
de Metz
Ile du Saulcy
F-57012 Metz Cedex 1
E-mail : niclas@letam.sciences.univ-metz.fr Fax : (+33)387 31 5377 Web page
Proceedings
of the
1st International Conference on Texture and Anisotropy of Polycrystals
ITAP-1
Clausthal,
Germany, September 22-25, 1997
Editor: Robert A. Schwarzer
Materials
Science Forum Vols. 273-275 (1998)
Trans Tech Publications Ltd., Switzerland
ISBN
0-87849-802-8
The
abstracts and order forms can be found on http://www.scientific.net
(Klick there on Textures & Anisotropy at the bottom of the left column.)
|
|
|
|
Texture - The Key to Physics in
Polycrystalline Matter |
3 |
|
H.J. Bunge's Cooperation with Metz: Initial Work and Prospective
Development |
15 |
|
Future Trends: Texture Analysis for
Structure-Sensitive Properties |
29 |
|
Development of the Statistical Theory of Grain Growth for the General
Case of Non-Uniform Grain Boundaries and Textures |
41 |
|
Textures of Thin Films |
55 |
|
Treatment of Elastic and Plastic Anisotropy of Polycrystalline Materials with Texture |
67 |
|
The Two-Dimensional Orientation Distribution of Planar Microstructural
Features |
77 |
|
|
|
|
Invited Lecture: |
89 |
|
Sampling Error of Texture Approximation by Individual Orientation Measurement |
99 |
|
Optimization of Texture Measurements. III. Statistical Relevance of ODF
Represented by Individual Orientations |
107 |
|
ODF Computer Program for High-Resolution Texture Analysis of Low-Symmetry Materials |
113 |
|
An Automated Component Method |
119 |
|
Keynote Lecture: |
125 |
|
New Algorithm for the ODF
Calculation from Pole Figures |
133 |
|
Genetic Algorithms, a New Concept
in Texture Analysis |
139 |
|
Secondary
Extinction Used in Thickness and Pole Density Measurements of Textured
Films by X-Ray Diffraction |
145 |
|
Influence
of Slip Activity and Dislocation Reaction on Variant Selection during the g-to-a Transformation |
151 |
|
Variant Selection during the
g-to-a' Transformation of a Fe-30%Ni Alloy |
157 |
|
Tests for Checking the Variant Selection Occurring in
the Texture
Transformations by Phase
Transformations of a Cubic Lattice to a
Hexagonal Lattice.
Restitution of the Parent Texture from the Inherited
Texture. |
163 |
|
Discrete Mesoscale Simulation of Recrystallization Microstructure and
Texture Using a Stochastic Cellular Automation Approach |
169 |
|
A Statistical Approach to Triple
Junctions in Polycrystals |
175 |
|
|
|
|
Invited Lecture: |
183 |
|
Keynote Lecture: |
191 |
|
A New Procedure for Automatic High Precision Measurements of the
Position and Width of Bands in Backscatter Kikuchi Patterns |
201 |
|
Orientation Imaging in the
Transmission Electron Microscope |
209 |
|
Automated Crystal Orientation Mapping (ACOM) with a Computer-Controlled
TEM by Interpreting Transmission Kikuchi Patterns |
215 |
|
SAD Pole Figures in Transmission and Reflection Using a High-Grade CCD
Camera as an Area Detector |
223 |
|
A Mesoscale Study of the Interaction between Grain Boundaries and the
Deformation Field |
229 |
|
Orientationally Resolved Grain Size
Distributions in Thin Films |
237 |
|
Determination of the Grain Boundary Misorientation for the Analysis of
the Discontinuous Ordering Reaction in Fe-50 at.% Co |
243 |
|
Using OIM to Interpret the Dynamically Recrystallized Texture of a Low Stacking Fault Energy FCC Material |
249 |
|
X-Ray Pole Figure Measurement and Texture Mapping of Selected Areas
Using an X-Ray Scanning Apparatus |
255 |
|
Peltier-Cooled Solid State Drift-Chamber Detector for Energy-Dispersive
X-Ray Pole Figure Measurement and Texture Mapping |
263 |
|
Through-Thickness Texture Variations Determined
Non-Destructively by
High Energy Synchrotron Radiation |
271 |
|
TEX-2, Texture Analysis at GKSS Research Center (Instrumentation and Application) |
277 |
|
Non-Destructive Study of Texture Heterogeneity |
283 |
|
|
|
|
Invited Lecture: |
291 |
|
Orientation Changes due to
Shear Banding in a-Brass |
299 |
|
Measurement and Analysis of
Local Textures |
305 |
|
The Lattice Reorientations of Cube and Near-Cube
Oriented fcc Crystals during
Plane Strain Compression |
313 |
|
Texture of
Shear Bands in Al-Mg 3% (AA5182) Measured by BKD |
319 |
|
Substructure Characteristics of Grain Boundary
Regions and Nucleation of Recrystallisation at Grain Boundaries in High Purity
Aluminium |
327 |
|
The Effect of Shear Bands on the Evolution of Rolling
and Recrystallization Texture in Cold-Rolled Direct Chill Cast Strips of Brass |
333 |
|
Texture and Microstructure of Cu and CuZn37 Brass
under Shearing in a
Planar Shear Test |
339 |
|
Grain Selection and Texture Evolution during
Solidification of Laser Beam Welds |
345 |
|
Investigations on Local Plasticity of CuAl
Polycrystals by in situ Observations and FEM Simulations |
363 |
|
|
|
|
Deformation Textures of fcc Materials Predicted with
a Regular Form of the Schmid
Law |
371 |
|
A Viscoplastic Simulation of Texture Evolution during
Extrusion of an Aluminium
Alloy |
377 |
|
Method Laue-Repere
Investigation of Texture Special Boundaries and Fine Structure in Steel Sheet |
383 |
|
The Effect of Shear Texture Development on the
Formability in Rolled Aluminum Alloy Sheets |
391 |
|
Deformation and Recrystallisation Textures in
Extruded Cylindrical Aluminium Profiles |
397 |
|
Texture Evolution during Extrusion of Flat AA6060 and
AA6082 Aluminium Profiles |
403 |
|
Deformation and
Recrystallization Texture of Extruded NiAl |
411 |
|
Side-Bulging during Tensile Tests of IF-Steels with
Cross-Thickness Texture
Gradients |
417 |
|
|
|
|
Three-Dimensional Monte Carlo Simulation of Primary
Recrystallization
and Grain Growth in Metals
with Texture |
425 |
|
Effect of Cold Rolling Level on Recrystallization
Textures in Low Carbon Steel Sheets - Modelling |
433 |
|
The Development of X-Ray Rocking Curve Method for
Microstructure Characterization and Damage Accumulation Modelling of Rx
Materials |
439 |
|
Mechanism of
Recrystallisation Texture Formation in IF-Steels |
447 |
|
Recrystallization Texture in IF-Steel: Understanding
and Possible Prediction |
453 |
|
Texture
Evolution in Aluminum during Continuous Recrystallization |
459 |
|
Dynamic Recrystallization
Textures in Ferrite and Ferritic Stainless Steels |
465 |
|
Cube Texture Formation in a
Rectangular Die Extruded Al-Mg Alloy |
471 |
|
Influence of Minor Precipitation Reactions on the Development of
Recrystallization Textures in Commercial Purity Aluminium |
477 |
|
On the Influence of Dispersoids on the Particle Stimulated Nucleation
of Recrystallization in an
Al-Fe-Si Model Alloy |
483 |
|
Inhomogeneous Texture Distributions Imaged by ACOM and X-Ray Pole Figure Measurement |
489 |
|
In Situ Recrystallization of Copper Studied by Individual Grain Orientation Measurement in the SEM |
497 |
|
Texture in Silver |
503 |
|
|
|
|
Invited Lecture: |
511 |
|
Experimental and Predicted Texture Evolutions in Zirconium Alloys
Deformed in Channel Die Compression |
523 |
|
Relationship between Crystallographic Texture and Dilatometric
Behaviour of a Hexagonal Polycrystalline Material |
529 |
|
Texture and Microstructure in Some Intermetallics Reinforced Aluminium Alloys |
535 |
|
Texture Evolution of a- and b- Phases in a Cold Rolled CuZnAl Shape
Memory Alloy |
541 |
|
Texture, Texture Transformation and Properties of CuZnAl Shape Memory Alloys |
547 |
|
Study of the Residual Stresses After Martensitic b-a" Phase
Transformation Induced by Tensile Test in a Sheet of b-Cez Alloy |
553 |
|
Textures in Diamond, GaN and SiC
Thin Films |
561 |
|
Microstructure Gradients in PVD-TiN
Coatings |
567 |
|
Crystal Texture and Electromigration Damage in Al-Based Interconnect Lines
Studied by ACOM with the SEM |
573 |
|
|
|
|
Orientation and Anisotropy in
Piezoelectric Ceramics |
581 |
|
Anisotropic Properties in Textured Ceramics |
587 |
|
Local Texture and Magnetic Levitation Force of YBaCuO
Cylinders |
595 |
|
Mica (110) Pole Figures in Support of Marchian Behaviour of Phyllosilicates during the
Development of Phyllosilicate Preferred Orientation |
601 |
|
|
|
|
Invited Lecture: |
609 |
|
Calculation of Effective Elastic
Constants for Polycrystalline Materials |
617 |
|
Magnetostrictive Ni-Base Alloys
Sheets with Strong Cubic Texture |
625 |
|
The Biaxial Strength and Ductility
of Textured Materials |
627 |
|
Texture and Corrosion Property in
the Hopeite Crystal Coated Steel |
635 |
|
The Texture and Macrostress Measurements for Cutting Tool PVD Coatings |
641 |
|
Analysis of Texture Evolution of
Torsion-Reverse Torsion of Copper Rods |
649 |
|
The Distribution of Elastic Deformation in Textured Materials as
Revealed by Peak
Position Pole Figures |
655 |
|
Stress and Texture in
Titanium Implants Coatings |
667 |
|
Mapping of Local Residual Strain
with an X-Ray Scanning Apparatus |
673 |
|
|
|
|
The Relationship between Olivine Textures and Seismic Anisotropy in a Database of Upper Mantle Rocks |
681 |
|
Neutron Textures of Quartzites
(Taquaral Valley, Minas Gerais, Brazil) |
687 |
|
Fabric, Texture and Anisotropy of Magnetic Susceptibility in High-Grade
Iron Ores from the Quadrilatero Ferrifero, Minas Gerais, Brazil |
693 |
|
Fabric Analysis on Natural Rock
Salt |
701 |
|
Identification of Electron Backscatter Diffraction Patterns in a
Monoclinic Solid-State Solution Series: Example of Omphacite |
705 |
Proceedings of the
10th International Conference on Textures of Materials
ICOTOM-10
Clausthal,
Germany, September 20-24, 1993
Editor: Hans Joachim Bunge
Materials
Science Forum Vols. 157-162 (1994)
Trans Tech Publications Ltd., Switzerland
ISBN
0-87849-681-5
The
abstracts and order forms can be found on http://www.scientific.net
(Klick
there on Textures & Anisotropy at the bottom of the left column.)
|
CONTENTS - Part 1 |
|
|
|
|
|
A Historical Survey of Texture Development between ICOTOM-1 and ICOTOM-10 |
3 |
|
Statistical
Crystallography of the Polycrystal |
13 |
|
Orientation
Imaging Microscopy: New Possibilities for Microstructural Investigation
Using Automated BKD Analysis |
31 |
|
Textures
in Ceramic Materials |
43 |
|
|
|
|
Invited Lecture: |
59 |
|
Panel Discussion: |
71 |
|
Quantitative
Texture Analysis of Thin Polycrystalline Layers |
97 |
|
An Experimental Apparatus for Quantitative On-Line
Texture Analysis |
103 |
|
Investigation of
Inhomogeneous Textures of Coatings and Near-Surface-Layers |
111 |
|
A New
Method for Texture Measurement Based on an X-Ray Imaging Plate System |
119 |
|
X-Ray Method for Continuous Tracking of Grain
Boundary Motion: Investigation of Grain
Boundary Migration in Al-Bicrystals |
125 |
|
A High-Pressure Device for In-Situ Measurements in a
Neutron Beam |
131 |
|
Electronmicrodiffraction
(EBSP) in the Scanning Electron Microscope (SEM) - Further Hardware Development
to Improve Pattern Quality |
137 |
|
A High
Resolution Electron Diffraction Method for On-Line Texture Analysis |
143 |
|
Automatic
Recognition of Deformed and Recrystallized Regions in Partly Recrystallized
Samples Using Electron Back Scattering Patterns |
149 |
|
Optimization
of the Texture Determination of Thin Films from X-Ray Diffraction Measurements |
159 |
|
Determination
of Texture in CuZnAl Shape Memory Alloys in the High Temperature Austenitic
Phase |
167 |
|
Orientation
Connectivity in Polycrystals |
175 |
|
High
Temperature Texture Goniometer for the Measurement of Transformation Textures |
181 |
|
A
CCD Camera System for the Acquisition of Backscatter Kikuchi Patterns on an SEM |
187 |
|
An Inexpensive CCD
Camera System for the Recording and On-Line Interpretation of TEM Kikuchi
Patterns |
189 |
|
On-line
Interpretation of SAD Channeling Patterns |
195 |
|
Preparation
of High-Resistance or Sensitive Samples for Grain Orientation Measurement with
Electron Microscopes |
201 |
|
Equipment
for Texture Measurement in Thin Films |
297 |
|
Application
of the Method for Non-Destructive Evaluation of Texture Heterogeneity |
213 |
|
Influence of Texture on Backscattered
Ultrasonic Noise |
221 |
|
Characterisation
of Multilayers Crystallographic Texture |
227 |
|
Determination of the Texture
of a TiNi Shape Memory Alloy by Treatment of a Set of Overlapping Rays |
235 |
|
On-Line
Determination of Deformation Systems for Cubic and Hexagonal Materials with the
TEM |
241 |
|
On-line
Interpretation of Spot and Kikuchi Patterns |
247 |
|
Determination of Magnetic
Textures in Ferromagnetics by Means of Neutron Diffraction |
251 |
|
|
|
|
Invited Lectures: |
|
|
Statistics, Evaluation and Representation of
Single Grain Orientation Measurements |
259 |
|
Experimental Errors in Quantitative Texture
Analysis from Diffraction Pole
Figures |
275 |
|
Coordinate
Free Tensorial Representation of N-Point Correlation Functions for Microstructure by Harmonic Polynomials |
287 |
|
Ultrasonic
Characterization of the Texture of Aluminum Alloys |
295 |
|
Some Comments about Texture Analysis: Comparison
between Harmonic and Vector Methods |
301 |
|
Texture
of High Temperature Deformed g-a2 Titanium Aluminides |
309 |
|
Practical
Considerations in the Calculation of Orientation Distribution Functions from
Electron Back-Scattered Diffraction Patterns |
315 |
|
Approximation
of Orientation Distribution of Grains in Polycrystalline Samples by Means of
Gaussians |
323 |
|
Automatic
Quantitative Analysis of Texture Components from CODF Data |
327 |
|
ODF
Analysis and Physical Properties on Personal Computer Basis |
333 |
|
Series
Expansion and Positivity |
341 |
|
Variation
Width, Modelling Assumptions, and Interpretation of ODFs from Diffraction
PDFs |
349 |
|
Texture
Analysis from Diffraction Pole Figures of Structurally Inhomogeneous Polycrystals |
357 |
|
Some
Applications of the Texture Component Model |
363 |
|
Orientation
Representation on the 4-D Unit Sphere, the Analogon of the 3-D Pole Sphere |
369 |
|
Estimate
of the Grain Number for True ODF Determination by Individual
Orientation Detecting Method |
375 |
|
Absorption
Correction for Non-Standard Geometry for Pole Figure Measurements |
381 |
|
Approximation
of the ODF by Gaussians for Sharp Textures |
387 |
|
Numerical Economization of
the Series Method |
393 |
|
The
ODF Calculation from Pole Figures for Different Types of Crystal and Sample
Symmetries |
401 |
|
Statistical
Analysis of Single Grain Orientation Data Generated from Model Textures |
407 |
|
Analysis of the ADC Method for Direct ODF
Calculation by Use of Gauss Models and
Standard Functions |
413 |
|
Inverse
Formulas for Orientation Distribution Function |
419 |
|
Analogy and Duality of Quantitative Texture Analysis by Harmonic or Indicator
Functions |
423 |
|
Exploratory
Orientation Data Analysis: Kernel Density Estimation and Clustering |
431 |
|
Methods for
Determining Small Differences between Measured Textures |
439 |
|
Linear
Regression for Texture Comparison |
447 |
|
Smoothing Pole Figures Using Tensor Products of Trigonometric and Polynomial
Splines |
453 |
|
Direct Correspondence between the Volumic Fractions Found by Texture
Analysis with the Vector Method
and with the Harmonic Method and Inverse Correspondence |
459 |
|
Quantitative Texture Analysis
with the Vector Method, Using Pole Figures of Rays and a Set of Overlapping
Rays |
465 |
|
Texture
Analysis from Diffraction Spectra |
473 |
|
Display
of the ODF by an Image Analyzer |
481 |
|
PC Program for the Calculation of ODF from SAD Pole Figures or from Individual Grain
Orientations |
487 |
|
A Computer Program for Determining Volume Fractions of Texture Components in Cubic
Materials |
493 |
|
|
|
|
Development
of Microtextures in Cold-Rolled Iron-Oligocrystals |
501 |
Texture
Analysis in the Monoclinic Martensitic Phase of a CuZnAl Shape Memory Alloy |
507 |
Texture
and Phase Development in Al-40 at% Ni Composites |
515 |
Oxidation of Titanium,
Zirconium and their Alloys, Texture of their Oxide Scales |
521 |
Texture Analysis of an
Amphibolite using the Component Method |
529 |
Changes in Texture by
Irradiation with Ar++ of Iridium and Platinum
Layers on Oriented Sapphire Substrates |
535 |
Cube Texture in Aluminum
Single Crystal of a (118)[711] Orientation |
541 |
The Texture Competition in
Solidification Process |
547 |
Texture of Al-7%Si Ingots |
555 |
Texture Transformation due to
Martensitic Phase Transformation in CuZnAl Shape Memory Alloys |
563 |
Effect of Phosphorous on the
Development of Textures in Ti-Stabilized Steel Sheets |
571 |
Describing the Rolling
Texture in Very Low Stacking Fault Energy Alloys |
577 |
|
|
Invited Lectures: |
|
Deformation
Texture Formation from Single Crystals |
585 |
|
Rolling
and Anealing Textures of BCC Metals |
597 |
|
Study of the Texture of Steelcord during the Wet Drawing Process - Influence of the
Patenting and the Friction on the Dies |
611 |
|
The
Effects of the Cold Rolling Process on the Texture of Zircaloy-4 Sheets |
617 |
|
Texture and Microstructure of
Channel-Die Deformed Aluminum Bicrystals with S Orientations |
627 |
|
Pb Texture of Pb-Al Composites Determined by the Iterative Series Expansion Method
and the Component Method |
633 |
|
Plane
Strain Compression of Titanium Crystals |
639 |
|
Development of Orientation and Damage during the Plastic Deformation
of Semicrystalline
Polyoxymethylene |
645 |
|
Correlation
between Texture and Dislocation Structure in Deformed Metals |
653 |
|
On the
Inhomogeneous Rolling Texture Transition |
659 |
|
The Development of Deformation Textures as a Function of the Phase Fractions in Two-Phase
Titanium-Based Alloys |
665 |
|
Influence of the
Rolling Temperature on the Texture Gradient in an Al-Mg-Si Alloy |
673 |
|
Rolling Texture
Development in Cu-Mn-Alloys |
679 |
|
Texture
Development in Extruded Al-Cu Composites |
685 |
|
Textural and
Microstructural Evolution during Cold-Rolling of Pure Nickel |
693 |
|
Circular
Texture in Thin Wires |
701 |
|
Textures
of Rolled and Wire Drawn Cu-20%Nb |
709 |
|
Fiber
Texture Formation and Mechanical Properties in Drawn Fine Copper Wires |
715 |
|
Isothermal
Forging Textures in g-TiAl Base Alloys |
721 |
|
Crystallographic
Texture Changes of Oriented Ethylene-Vinylalcohol Copolymer Films on Rolling |
727 |
|
Examples
of Neutron Diffraction Texture Analysis on One and the Same Chalcopyrite Sample
before and after Experimental Deformation |
733 |
|
Microstructural
Analysis of an Experimentally Deformed Chalcopyrite Grain by Orientation
Imaging Microscopy |
739 |
|
Texture
Development in Al 3003 during Hot Plane Strain Compression |
745 |
|
Ridging
Phenomena in Textured Ferritic Stainless Steel Sheets |
753 |
|
Effect
of Copper Alloying on the Development of Cold Rolling Textures in Extra Low
Carbon Steels |
761 |
|
Texture
Inhomogeneities in Rolled Profiles |
767 |
|
Texture and Yield Locus Evolution in 70/30 Brass under Different
Deformation Paths |
783 |
|
Quantitative
Texture Analysis of Naturally Deformed Polyphase Dolomite Marbles and its
Kinematic Significance |
789 |
|
Examination of Texture Discontinuity at Sheet Surface due to Cold
Rolling |
795 |
|
Strain
and Temperature Dependence of Deformation Banding |
801 |
|
Hot
Rolling Textures of Aluminium |
807 |
|
Textures
in Two Phase Intermetallic TiAl Alloys after Compression and Extrusion |
813 |
|
Preferred Orientation of a
Naturally and Experimentally Deformed Pyrrhotite Ore by X-Ray and Neutron
Diffraction Texture Analysis |
821 |
|
Texture
Development of Cold Drawn Wires in (a + b) CuZnAl Shape Memory Alloys |
827 |
|
Temperature
Effects on Rolling Texture Formation in Zirconium Alloys |
835 |
|
Textures
of Cold Rolled and Annealed Tantalum |
841 |
|
Texture Evolution
during the Drawing of an Interstitial-Free Low Carbon Steel |
847 |
|
Texture and Microstructure Development in a Cold-Rolled Duplex Stainless Steel Annealed
at 800 °C |
853 |
|
About Fair Defining the Texture of Sheet Zinc |
859 |
|
Influence of Grain Boundary Orientation on Deformation and Texture Development
in Rolled {112}<111> Cu-Bicrystals |
865 |
|
Formation
of Biaxial-Stretching Textures in FCC Sheet Metals |
873 |
|
Influence of Initial Texture
on the Development of Deep Drawing Textures in FCC Metals |
879 |
|
|
|
|
Invited Lectures: |
|
|
Formation of the
Recrystallization Texture in Deformed Single Crystals |
887 |
|
Texture
Evolution by Recrystallization and Grain Growth in Cold Rolled and Annealed
(100)[001] Single Crystal of Fe-3%Si |
899 |
|
Texture
Development during Secondary Recrystallization |
905 |
|
Rolling and
Annealing Texture in Twin Roll Cast Commercial Purity Aluminium |
913 |
|
Deformation
and Recrystallisation Textures in Al-SiC Metal-Matrix Composites |
919 |
|
Preferred Grain Boundary
Orientations Formed during Secondary Recrystallization of a Cu-0.5 at%-Mn Alloy |
927 |
|
Behavior
of Statistical Texture Parameters Applied to Single Grain Orientation
Measurements in Recrystallized Al-Mn |
933 |
|
Formation
of Recrystallization Textures and Plastic Anisotropy in Al-Mg-Si Alloys |
939 |
|
Investigation
into the Nucleation Process of Recrystallization in Cold Rolled Boron Doped Ni3Al |
945 |
|
The
Use of S Operators in Investigating Secondary Recrystallization of
3% Silicon Steel |
953 |
|
Control
of the BCC Metals Texture by Pre-Recrystallization Annealing during Deformation |
959 |
|
Analysis
of Misorientation Characteristics in Annealed and Deformed Copper |
965 |
|
Growth
Selection Experiments on Tensile Deformed <100>-Oriented
Alummium (99.998%) Single Crystals |
971 |
|
The
Effect of Intermetallic Particles and Fibers on Recrystallization Textures of Cold
Rolled Aluminum Alloys |
977 |
|
Effect
of Substitutional Alloying Elements on the Development of Recrystallization
Textures in Extra Low Carbon Steel |
983 |
|
Texture Development during
Secondary Recrystallization of Grain Oriented Silicon Steel |
989 |
|
Texture
Evolution during Recrystallisation of Ultra-Low Carbon Steel |
997 |
|
Texture Development of Amorphous FeBSi Alloy during Crystallization |
1003 |
|
Recrystallization Texture in Fe-28Al-5Cr Alloy Sheet |
1009 |
|
Pancake Grain Structure and
Recrystallization Texture Formation in Ultra-Low Carbon Al-Killed Sheet Steels |
1015 |
|
Cube Texture Generation
Dependence on Deformation Textures in Cold Rolled OFE Copper |
1021 |
|
Recrystallization Texture in Fe 3% Si Alloys Obtained by Direct Casting:
Characterization by EBSD and
X-Ray Diffraction |
1027 |
|
Effects
of Precipitations on the Annealing Textures of Ferritic Stainless Steels |
1033 |
|
Texture
Development of Strip Cast Ferritic Stainless Steel |
1039 |
|
Deformation and Recrystallization Textures of Cu-Si Alloys |
1045 |
|
Influence of a Region Hot Roiling on the Rolling and Recrystallization
Texture of Cold Rolled
Ti-Bearing Extra Low Carbon Steel Sheets |
1051 |
|
Grain
Boundary Misorientation Changes during Grain Growth in Pure Aluminium |
1057 |
|
Grain
Structure Evolution during Grain Growth in 2-D-Aluminum Foils |
1063 |
|
In situ Observations of the
Initial Stage of Recrystallization of Highly Rolled Phosphorous Copper |
1069 |
|
Recrystallization
Texture of Cross-Rolled Aluminum Alloy |
1075 |
|
Dynamic
Observation of the Growth of Secondary Recrystallized Grains of Fe-3% Si Alloy
Utilizing Synchrotron X-Ray Topography |
1081 |
|
On the Formation of Cube
Texture in Aluminium |
1087 |
|
The
Effect of Hot-Rolling Parameters on Texture Development and Microstructure in
Aluminium AA5182 |
1095 |
|
Texture
and Grain Boundary Character Distribution (GBCD) in B-Free Ductile
Polycrystalline Ni3Al |
1103 |
|
Evolution
of the Microtexture during Recrystallization of High Purity Al-Mn |
1109 |
|
|
|
|
|
|
|
Invited Lecture: |
|
|
Substructure
Analysis in Textured Metallic Materials |
1119 |
|
Individual Grain Orientation Relations after High-Speed Hot Rolling of
Steel Rods |
1131 |
|
Local Orientation
Investigation on the Ridging Phenomenon in Fe 17% Cr Steel |
1137 |
|
The Influence of Initial
Microstructure on the Recrystallization Textures of Aluminium Alloys after Hot
Deformation by Laboratory Simulation |
1145 |
|
Influence of the Initial
Texture on the Microstructure- and Microtexture Development during High
Temperature Low Cycle Fatigue |
1153 |
|
EBSP and SIMS Studies of Oxygen Tracer Diffusion in the High Temperature
Superconductor La2-xSrxCuO4 |
1161 |
|
Deformation Banding and Its Influence on High SFE FCC Rolling Texture Development |
1167 |
|
Evidence
for the Existence of a Special Class of Crystallographic Misorientations |
1175 |
|
The
Dependence of Dislocation Density and Cell Size on Crystallographic Orientation
in Aluminum |
1181 |
|
Microtexture Development during High Temperature Deformation of Nimonic 80A Single
Crystals |
1189 |
|
The Influence of the Extrusion Speed on Texture in the Surface Layer of
Alunimium Profiles
Investigated by the EBSP Technique |
1197 |
|
Stress-Induced
Grain Growth in Thin Al-l%Si Layers on Si/SiO2 Substrates |
1205 |
|
Grain
Subdivision during Deformation of Polycrystalline Aluminium |
1211 |
|
Texture
Estimate from Minimum Ranges of SAD Pole Figures |
1219 |
|
Evaluation
of the High Temperature b Texture of a Sample of TA6V from Individual
Orientation Measurements of Plates of the a Phase at Room Temperature |
1225 |
|
Influence
of Shear Banding on the Texture in Rolled and Channel-Die Compressed
Polycrystalline Copper |
1231 |
|
Local
Orientation Changes during Shear Banding of Copper Single Crystals Compressed
in Channel-Die |
1237 |
|
Local
Microstructural Investigations in Recrystallized Quartzite Using Orientation
Imaging Microscopy |
1243 |
|
Effect
of Texture on Strain Localization in Deformation Processing |
1251 |
|
A Local Texture
Analysis of a Hot Deformed Al-Li-Zr-Alloy |
1257 |
|
About
the Texture Influence on the Frequency ot CSL Boundaries in Steels |
1263 |
|
Misorientation
Distributions and the Transition to Continuous Recrystallisation in a Strip
Cast Aluminium Alloy |
1271 |
|
Direct
Observation of Orientation Changes Following Channel Die Compression
of Polycrystalline Aluminum: Comparison between Experiment and Model |
1277 |
|
Microtexture
Evolution of Necklace Structures during Hot Working |
1283 |
|
Orientational
Aspects of the Morphological Elements of the Microstructure in Highly Cold
Rolled Pure Copper and Phosphorous Copper |
1291 |
|
Microtexture
Determination of As-Drawn Tungsten Wires by Backscatter Kikuchi Diffraction in
the Scanning Electron Microscope |
1299 |
|
Micro-Texture
Analysis of Diffusion Bonded Interfaces in Al-Li Alloy Sheet |
1305 |
|
Microtextural
Characterization of Annealed and Deformed Copper |
1313 |
|
Determination of Local Texture and Deformation
Systems in TiA16V4 and T40 |
1319 |
|
|
|
|
Invited Lectures: |
|
|
Textures in Thin Films |
1327 |
|
Texture Formation in Hexagonal Materials |
1337 |
|
The Effects of Impurity Elements on the Preferred Orientation during
Melt Spinning of Dilute
Zn-Alloys |
1351 |
|
Relations between Texture,
Superplastic Deformation and Mechanical Properties of Thin TA6V Slabs |
1357 |
|
Texture
in Zircaloy-4: Effect ofThermomechanical Treatments |
1365 |
|
Texture
of Electroplated Coatings of Copper and Bismuth Telluride |
1371 |
|
X-Ray Texture Analysis in Films by the Reflection Method: Principal Aspects and Applications |
1379 |
|
Experimental
Studies of Texture Development in Co-Cr Films |
1387 |
|
Electric Field Induced Domain
Formation in Surface Stabilized Ferroelectric Liquid Crystal Cells |
1393 |
|
Epitaxy
in Texture Formation of Electrodeposited Cu-Coatings |
1405 |
|
Texture
Formation in Al2O3 Substrates |
1411 |
|
Preferred
Orientations in Polycrystalline C60 |
1417 |
|
Inhomogeneous
Textures in Tantalum Sheets |
1423 |
|
Texture
and Grain Structure Effects on the Reliability of Microelectronic Interconnects |
1435 |
|
Textures
of Aluminum and Copper Thin Films |
1443 |
|
Controlled
Texture Development in Hot-Forged Lithium Fluoride |
1449 |
|
Texture
Analysis in Zircaloy Cladding Tube Material for Nuclear Fuel |
1455 |
|
Natural
Fibre Textures in a Naturally Textured Material |
1463 |
|
Macrotextures
of Stainless Fe-Cr Steels |
1469 |
|
Neutron
Diffraction Measurements of Texture in Silicon Carbide Whisker-Reinforced
Aluminum Composites |
1475 |
|
Formation of Oblique Shape
and Lattice Preferred Orientation in a Quartz Band of a Gneissic Mylonite |
1481 |
|
Texture of Aluminium and Iron
Thin Films and Texture of Bilayers Al/Fe Deposited on Silicon |
1487 |
|
X-Ray Diffraction
Study of Texture Evolution in Electrodeposited Zinc Layers |
1495 |
|
The
Effect of Precipitates on Texture Development |
1501 |
|
On the Influence of a Weak Preferred
Orientation on the Strength of Aluminium Oxide
Ceramic |
1507 |
|
Influence
of Segregation of Phosphorous on Texture Development in Cold-Rolled Fe-P Alloys
during Annealing |
1513 |
|
|
|
|
Invited Lecture: |
|
|
Anisotropic
Properties of Minerals and Rocks |
1523 |
|
The Influence ofMicrostructure and Texture on Fracture Toughness in Titanium Alloy
CORONA-5 |
1537 |
|
Orientation
Dependence of the Permeability in Textured Soft Magnetic Materials |
1543 |
|
Anomalies of Young's Modulus in Fe-Cu Composites after High
Degrees of Deformation |
1551 |
|
Stress
Birefringence in Textured Silver Chloride |
1559 |
|
Limited Fibre Components in Texture Analysis; Texture Contribution in
Anisotropy of Physical
Properties |
1565 |
|
Local
Mechanical Properties in Thin Aluminium Layers on Silicon Substrates Calculated
from Measured Grain Orientations |
1571 |
|
Toughness
Anisotropy in Brittle Materials |
1577 |
|
Numerical
Analysis of Stiffness in Sheet Products Based on Crystal Anisotropy |
1585 |
|
The
Dependence of the Anisotropy and Texture Properties of Injection Moulded Liquid
Crystal Polymer Parts on Moulding Parameters |
1593 |
|
Use of
Irreducible Spherical Tensors in the Calculation of the Mean Elastic Properties
of Polycrystals |
1599 |
|
Derivation
of Yield Criteria of Cubic Metals from Schmid's Law |
1603 |
|
Calculation
of Average Elastic Moduli of Polycrystalline Materials Including BaTiO3 and
High-Tc Superconductors |
1609 |
|
Textures
and Plastic Strain Ratios of Planar Isotropic Sheet Metals |
1623 |
|
Texture
and Formability of Aluminum Sheets |
1629 |
|
Strain Localization and
Fracture in Anisotropic FCC Metal Sheets: Shear Bands |
1635 |
|
On Some
Methodical Developments Concerning Calculations Performed Directly in the
Orientation Space |
1641 |
|
On the Geometric
Mean of Physical Tensors Using Orientation Distributions |
1647 |
|
The Effect of
Texture and Strain on the r-Value of Heavy Gauge Tantalum Plate |
1653 |
|
Determination of Young's
Modulus in Textured CuZnAl Shape Memory Alloys |
1663 |
|
Effect of Texture and
Microstructure on the Mechanical Properties of Zn Alloys |
1671 |
|
Diamagnetic
Anisotropy of Precambrian Quartzites (Moeda Formation, Taquaral Valley, Minas
Gerais, Brazil) |
1675 |
|
Magnetic
Anisotropy and Texture of Banded Hematite Ores |
1681 |
|
The
Work Hardening of Pearlite during Wire Drawing |
1689 |
|
Texture
Gradient Effects in Tantalum |
1695 |
|
|
|
|
Invited Lectures: |
|
|
Finite
Element Modelling of Polycrystalline Solids |
1703 |
|
Modelling the Effects of Static and Dynamic Recrystallization on Texture Development |
1713 |
|
Theory of Grain
Boundary Structure Effects on Mechanical Behaviour |
1731 |
|
Simulation of Rolling and Deep Drawing Textures in Ferritic Steels: Application to Ear
Profiles Calculation in Deep Drawing |
1739 |
|
An Equilibrium-Based Model for Anisotropic Deformations of Polycrystalline Materials |
1747 |
|
Interconnection of Texture
Development and Alternative Slipping of Different Types of Slip Systems:
Computer Simulation |
1753 |
|
A New
Theory of the FCC Rolling Texture Transition |
1759 |
|
Effect
of Cube Nucleus Distribution on Cube Texture |
1765 |
|
Texture Development and
Simulation of inhomogeneous Deformation of FeCr during Hot Rolling |
1771 |
|
On the Effect of Grain Orientation on Deformation Texture |
1777 |
|
Experimental and Theoretical Study of the Recrystallization Texture of
a Low Carbon Steel
Sheet |
1783 |
|
Modelling
Cyclic Deformation Textures with Orientation Flow Fields |
1791 |
|
Failures
to Model the Development of a Cube Texture during the High Temperature
Compression of Al-Mg Alloys |
1797 |
|
Calculation
of the Recrystallization Textures of Cubic Metals |
1803 |
|
Comparison
of a Self-Consistent Approach and a Pure Kinematical Model for Plastic
Deformation and Texture Development |
1809 |
|
Lattice
Rotation during Plastic Deformation with Grain Subdivision |
1815 |
|
Texture
of Microstructures in BCC Metals for Various Loading Paths |
1821 |
|
Modelling
of the Texture Formation in Electrodeposition Process |
1827 |
|
Simulation
of Recrystallization Texture in Copper |
1839 |
|
Grain
Growth Simulation by Monte Carlo Method in a HiB Fe 3% Si Alloy |
1847 |
|
Effect of Deep Drawing on Texture Development in Extra Low Carbon Steel
Sheets |
1855 |
|
Contribution of EBSP to the Determination of the Rotation Flow Field |
1861 |
|
A Modified Self Consistent Viscoplastic Model Based on Finite Element
Results |
1869 |
|
Prediction
of Forming Limits of Titanium Sheets Using the Perturbation Analysis with
Texture Development |
1875 |
|
Taylor
Simulation of Cyclic Textures at the Surface of Drawn Wires Using a Simple Flow
Field Model |
1881 |
|
Modelling
Microstructural Evolution of Multiple Texture Components during
Recrystallization |
1887 |
|
On the
Theory of Compromise Texture |
1895 |
|
Anisotropic
Finite-Element Prediction of Texture Evolution in Material Forming |
1901 |
|
Finite-Element Prediction of
Heterogeneous Material Flow during Tensile Testing of Anisotropic Material |
1909 |
|
|
|
|
Invited Lectures: |
|
|
Practical
Aspects of Texture Control in Low Carbon Steels |
1917 |
|
Inspection and
Control by On-Line Texture Measurement |
1929 |
|
The
Influence of Texture on the Magnetic Properties of CoCr Films |
1941 |
|
Effect of Strain Path Change on Anisotropy of Yield Stresses of Cubic Structure
Sheet Metals |
1947 |
|
A Quantitative Analysis of Earing during Deep Drawing of Tin
Plate Steel and Aluminum |
1953 |
|
Earing Prediction From Experimental and Texture Data |
1961 |
|
Earing
in Single Crystal Sheet Metals |
1967 |
|
The
Influence of Texture and Microstructure on Corrosion-Fatigue in Ti-6Al-4 |
1971 |
|
Texture
Evolution during Deep Drawing in Aluminium Sheet |
1979 |
|
Texture Inhomogeneities in High Tensile Strength Steels Processed with
Low Temperature
Controlled Rolling |
1985 |
|
Annealing
Textures in Aluminium Deformed by Hot Plane Strain Compression |
1991 |
|
The
Effect of Grain Boundary Structure on the Intergranular Corrosion of Stainless
Steel |
1997 |
|
Study
on Factors Affecting r-Value ofCu Precipitation-Hardening Cold-Rolled Steel
Sheet |
2005 |
|
Importance
of Process Parameters for Texture and Properties of Microalloyed Deep Drawing
Steels |
2011 |
|
Earing
and Textures in Austenitic Stainless Steel Type 305 |
2017 |
|
Direct
Oberservation of the Nucleation and Growth Rates of Cube and Non-Cube Grains in
Warm Plane-Strain Extruded Commercial Purity Aluminum |
2025 |
|
Global
Texture Development in Cold Work of Copper and Brass by Pass Rolling |
2031 |
|
Texture
Development in Ferrous Materials during Deformation by Pass Rolling or
Compression |
2037 |
|
Quantitative
Correlation of Texture and Earing in Al-Alloys |
2043 |
|
|
|
|
Determination
of Residual Stresses in Plastically Deformed Polycrystalline Material |
2051 |
|
X-Ray Residual Macrostress of Texturized Polycrystals from Pole
Figures |
2059 |
|
A New Method for Crystal Structure Analysis of
Textured Powder
Samples |
2067 |
|
Wire Geometry Correction of Textures and Stress Measurements on
Wires |
2075 |