... using circular polarization: crossed polarizers and two quarterwave plates (Heilbronner-CD#1)
... using crossed polarizers (Heilbronner-CD#1)
... using crossed polarizers and lambda plate (Heilbronner-CD#1)
... using crossed polarizers, lambda plate and narrowband infrared filter (Heilbronner-CD#1)
...more on the quartz veins from the Tonale fault (Heilbronner-CD#1)
1. Introduction (Ree-CD#2)
1.0 Introduction (Bons-CD#1)
1.7 References (Wilson-CD#2)
1.8 Acknowledgments (Wilson-CD#2)
2. Grain Boundary Sliding (Ree-CD#2)
2.0 Terminology (Bons-CD#1)
2.1 Macroscopic Morphology (Bons-CD#1)
2.1 Time Lapse Photography (Wilson-CD#2)
2.10 Critical Resolved Shear Stress (Wilson-CD#2)
2.11 Non-Basal Glide (Wilson-CD#2)
2.12 Diffusional Flow (Wilson-CD#2)
2.13 Plastic Deformation (Wilson-CD#2)
2.14 Primary Creep (Wilson-CD#2)
2.15 Secondary Creep (Wilson-CD#2)
2.16 Tertiary Creep (Wilson-CD#2)
2.17 Deformation Mechanism Maps (Wilson-CD#2)
2.18 Grain Growth & 2.19 Grain Size Reduction (Wilson-CD#2)
2.2 Glaciers (Wilson-CD#2)
2.2 Microscopic Morphology (Bons-CD#1)
2.20 Anisotropic Flow Law for Ice (Wilson-CD#2)
2.3 Dislocations (Wilson-CD#2)
2.3 Growth Morphology (Bons-CD#1)
2.4 Bernard-Fowler rule (Wilson-CD#2)
2.5 Generation of Defect Structures (Wilson-CD#2)
2.6 Crystal Structure (Wilson-CD#2)
2.7 Ice (Wilson-CD#2)
2.8 Basal Glide & 2.9 Strain Rate for Glide on Basal System (Wilson-CD#2)
3. Accommodation Mechanisms for Grain Boundary Sliding (Ree-CD#2)
3.0 Vein Formation (Bons-CD#1)
3.2 Precipitation in a vein (Bons-CD#1)
4 Conclusions (Bons-CD#1)
4. Experimental Examples (Ree-CD#2)
5. Evolution and Implications of Grain Boundary Sliding (Ree-CD#2)
6. Recognition of Grain Boundary Sliding (Ree-CD#2)
7. References (Ree-CD#2)

A collection of time-lapse movies from transmitted light deformation experiments (Urai-CD#2)
ABOUT ORIENTATION IMAGING (Heilbronner-CD#1)
about the authors (Tullis-CD#1)
Abstract (Bons-CD#1)
Abstract (Bayly-CD#1)
Abstract (Bosworth-CD#1)
Abstract (Hobbs-CD#1)
Abstract (Urai-CD#2)
Abstract (Park-CD#2)
Abstract (Williams-CD#1)
Abstract (Fletcher-CD#1)
Abstract (McLaren-CD#2)
Abstract (Ree-CD#2)
Abstract (Wilson-CD#2)
Abstract (Vernon-CD#1)
Acknowledgements (Heilbronner-CD#1)
Acknowledgements (Tullis-CD#1)
Acknowledgments (Bons-CD#1)
Acquiring (Heilbronner-CD#1)
An Approximate Solution (Bayly-CD#1)
Analysis of orientation gradient images (Heilbronner-CD#1)
Annealed regime 1, 2 and 3 (Heilbronner-CD#1)
Apparatus (Hafner-CD#2)
Appendix 1 An Embedded Viscous Cylinder in Pure Shear (Bayly-CD#1)
Appendix 2 The Characteristic Length L (Bayly-CD#1)
Appendix 3 Anisotropic Gain or Loss (Bayly-CD#1)
Appendix A. Darcian flow and mobile Hydrofractures (Bons-CD#1)
Appendix B. Crack-Seal microstructures (Bons-CD#1)
Azimuth (Herwegh-CD#2)

Bischofite movies (Urai-CD#2)

CALCULATING THE PRIMARY IMAGES (Heilbronner-CD#1)
Calculation of azimuth, inclination, and error images (Heilbronner-CD#1)
Caldera Collapse (Bosworth-CD#1)
Camphor movies (Urai-CD#2)
Carnallite movies (Urai-CD#2)
Carrara Marble (Heilbronner-CD#1)
Changes in Micro-shear zone rotation and length (Herwegh-CD#2)
Checking the inclination image (Heilbronner-CD#1)
Checking the input (Heilbronner-CD#1)
CIP (computer-integrated microscopy) Orientation Imaging (Heilbronner-CD#1)
CIP input (Heilbronner-CD#1)
CIP output (Heilbronner-CD#1)
CIP References (Heilbronner-CD#1)
CIP Software (Heilbronner-CD#1)
Circular polarization micrographs, part I (Heilbronner-CD#1)
Circular polarization micrographs, part II (Heilbronner-CD#1)
Colour look-up tables (Heilbronner-CD#1)
Colour-coding the azimuth image (Heilbronner-CD#1)
Colour-coding the inclination image (Heilbronner-CD#1)
Comparing CIP and EBSD (Heilbronner-CD#1)
Conclusion (Hafner-CD#2)
Conclusions (Vernon-CD#1)
Conclusions (Williams-CD#1)
Conclusions (Park-CD#2)
Configuration (Herwegh-CD#2)
Content (Herwegh-CD#2)
CONTENTS (Heilbronner-CD#1)
Contents (Wilson-CD#2)
Contour 1 (Hafner-CD#2)
Contour plots for an annular shear strain from 13.4 to 18 (Hafner-CD#2)
Correcting the inclination image (Heilbronner-CD#1)

Dedication (Tullis-CD#1)
Defects in the description so far (Bayly-CD#1)
Deformation & reactions (Tullis-CD#1)
Deformation and reactions: anorthosites (Tullis-CD#1)
Deformation and reactions: granodiorites (Tullis-CD#1)
Deformation Microstructures (Tullis-CD#1)
Deformation with Diffusion: the Growth of Augen (Bayly-CD#1)
Details close to the inclusion (Bayly-CD#1)
Development of an axial plane mica foliation (Williams-CD#1)
Development of S-C' type cleavage in Paraffin wax using a circular shear rig (Hafner-CD#2)
Diffusive Gain or Loss not Isotropic (Bayly-CD#1)
Discussion (Fletcher-CD#1)
Discussion (Park-CD#2)
Discussion and Conclusions (Hobbs-CD#1)
Discussion and Conclusions (Bayly-CD#1)
Discussion and Conclusions (Bosworth-CD#1)
Domain SPO (Herwegh-CD#2)
Domain Width (Herwegh-CD#2)
Dynamic recrystallization of quartzite along deformation gradient (Heilbronner-CD#1)

Entire sample (Hafner-CD#2)
Entire sample (Hafner-CD#2)
Evolution of Mylonitic Microfabrics (Herwegh-CD#2)
Experiemntal qtz-fs: starting material &regime 1 (Tullis-CD#1)
Experimental conditions (Hafner-CD#2)
Experimental Conditions (Herwegh-CD#2)
Experimental feldspar (Tullis-CD#1)
Experimental feldspar: cataclastic flow (Tullis-CD#1)
Experimental feldspar: regime 1 (Tullis-CD#1)
Experimental feldspar: starting material (Tullis-CD#1)
Experimental pyroxenite & diabase (Tullis-CD#1)
Experimental pyroxenite & diabase (Tullis-CD#1)
Experimental qtz-fs (Tullis-CD#1)
Experimental qtz-fs: annealing & melting (Tullis-CD#1)
Experimental qtz-fs: regime2 (Tullis-CD#1)
Experimental quartz (Tullis-CD#1)
Experimental quartz: annealing (Tullis-CD#1)
Experimental quartz: semibrittle & regime 1 (Tullis-CD#1)
Experimental quartz: starting materials (Tullis-CD#1)
Experimental quartz: transition regime 2/3 & regime3 (Tullis-CD#1)
Experimental quartz:regime 2 (Tullis-CD#1)
Experiments (Park-CD#2)
Experiments (Herwegh-CD#2)

Field Relationships (Vernon-CD#1)
Figur 14 (Tullis-CD#1)
Figure 1 (Tullis-CD#1)
Figure 1 (Hafner-CD#2)
Figure 10 (Tullis-CD#1)
Figure 100 (Tullis-CD#1)
Figure 11 (Tullis-CD#1)
Figure 12 (Tullis-CD#1)
Figure 13 (Tullis-CD#1)
Figure 15 (Tullis-CD#1)
Figure 16 (Tullis-CD#1)
Figure 18 (Tullis-CD#1)
Figure 19 (Tullis-CD#1)
Figure 2 (Tullis-CD#1)
Figure 2 (Hafner-CD#2)
Figure 20 (Tullis-CD#1)
Figure 21 (Tullis-CD#1)
Figure 22 (Tullis-CD#1)
Figure 23 (Tullis-CD#1)
Figure 24 (Tullis-CD#1)
Figure 25 (Tullis-CD#1)
Figure 26 (Tullis-CD#1)
Figure 27 (Tullis-CD#1)
Figure 29 (Tullis-CD#1)
Figure 3 (Tullis-CD#1)
Figure 3 (Hafner-CD#2)
Figure 30 (Tullis-CD#1)
Figure 32 (Tullis-CD#1)
Figure 33 (Tullis-CD#1)
Figure 34 (Tullis-CD#1)
Figure 35 (Tullis-CD#1)
Figure 36 (Tullis-CD#1)
Figure 37 (Tullis-CD#1)
Figure 38 (Tullis-CD#1)
Figure 39 (Tullis-CD#1)
Figure 4 (Tullis-CD#1)
Figure 41 (Tullis-CD#1)
Figure 42 (Tullis-CD#1)
Figure 43 (Tullis-CD#1)
Figure 44 (Tullis-CD#1)
Figure 45 (Tullis-CD#1)
Figure 46 (Tullis-CD#1)
Figure 47 (Tullis-CD#1)
Figure 49 (Tullis-CD#1)
Figure 5 (Tullis-CD#1)
Figure 5 (Tullis-CD#1)
Figure 50 (Tullis-CD#1)
Figure 51 (Tullis-CD#1)
Figure 52 (Tullis-CD#1)
Figure 53 (Tullis-CD#1)
Figure 54 (Tullis-CD#1)
Figure 55 (Tullis-CD#1)
Figure 56 (Tullis-CD#1)
Figure 57 (Tullis-CD#1)
Figure 58 (Tullis-CD#1)
Figure 59 (Tullis-CD#1)
Figure 6 (Tullis-CD#1)
Figure 61 (Tullis-CD#1)
Figure 62 (Tullis-CD#1)
Figure 63 (Tullis-CD#1)
Figure 64 (Tullis-CD#1)
Figure 65 (Tullis-CD#1)
Figure 66 (Tullis-CD#1)
Figure 67 (Tullis-CD#1)
Figure 68 (Tullis-CD#1)
Figure 69 (Tullis-CD#1)
Figure 7 (Tullis-CD#1)
Figure 70 (Tullis-CD#1)
Figure 71 (Tullis-CD#1)
Figure 72 (Tullis-CD#1)
Figure 73 (Tullis-CD#1)
Figure 74 (Tullis-CD#1)
Figure 75 (Tullis-CD#1)
Figure 76 (Tullis-CD#1)
Figure 77 (Tullis-CD#1)
Figure 78 (Tullis-CD#1)
Figure 79 (Tullis-CD#1)
Figure 8 (Tullis-CD#1)
Figure 80 (Tullis-CD#1)
Figure 81 (Tullis-CD#1)
Figure 82 (Tullis-CD#1)
Figure 83 (Tullis-CD#1)
Figure 84 (Tullis-CD#1)
Figure 85 (Tullis-CD#1)
Figure 86 (Tullis-CD#1)
Figure 87 (Tullis-CD#1)
Figure 88 (Tullis-CD#1)
Figure 89 (Tullis-CD#1)
Figure 9 (Tullis-CD#1)
Figure 90 (Tullis-CD#1)
Figure 91 (Tullis-CD#1)
Figure 92 (Tullis-CD#1)
Figure 93 (Tullis-CD#1)
Figure 94 (Tullis-CD#1)
Figure 95 (Tullis-CD#1)
Figure 96 (Tullis-CD#1)
Figure 97 (Tullis-CD#1)
Figure 98 (Tullis-CD#1)
Figure 99 (Tullis-CD#1)
Figure17 (Tullis-CD#1)
Figure28 (Tullis-CD#1)
Figure31 (Tullis-CD#1)
Filling of a Bouding Gap (Fletcher-CD#1)
First round: CIPD & INVPIMA (Heilbronner-CD#1)
Flow In Polycrystalline Ice (Wilson-CD#2)
Flow in Polycrystalline Ice - Part 1 (Wilson-CD#2)
Fold Geometry and Constitutive Behaviour (Hobbs-CD#1)
Fold Growth In Elastoviscous Materials (Hobbs-CD#1)
Fold Growth In More Exotic Materials (Hobbs-CD#1)
Foliation development (Williams-CD#1)
Formation of micro-shear zones (Herwegh-CD#2)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)
Further reading (Tullis-CD#1)

Glossary (Herwegh-CD#2)
Glossary 1 (Jessell-CD#1)
Glossary 2 (Jessell-CD#1)
Glossary 3 (Jessell-CD#1)
Glossary 4 (Jessell-CD#1)
Glossary 5 (Jessell-CD#1)
Glossary Index (Jessell-CD#1)
Goals (Herwegh-CD#2)
Grain and domain SPO controlled by Micro-shear zones (Herwegh-CD#2)
Grain boundary detection based on misorientations (Heilbronner-CD#1)
Grain Boundary Sliding In Experimental Deformation Of Octachloropropane (Ree-CD#2)
Grain size (Herwegh-CD#2)
Grain size analysis (Heilbronner-CD#1)
Grain size sensitive texture analysis (Heilbronner-CD#1)
Grain SPO (Herwegh-CD#2)

High strain zones and Micro Shears (Herwegh-CD#2)
How to navigate (Tullis-CD#1)
How to Use This Volume
HT-HS CPO Area (Herwegh-CD#2)
HT-HS Deformation Mechanism Activity (Herwegh-CD#2)
HT-HS Grain Size (Herwegh-CD#2)
HT-HS Mechanism Activity (Herwegh-CD#2)
HT-HS Microfabric Evolution (Herwegh-CD#2)
HT-HS Particle Orientation (PAROR) (Herwegh-CD#2)
HT-HS Textures (Herwegh-CD#2)
HT-LS CPO Area (Herwegh-CD#2)
HT-LS Deformation Mechanism Activity (Herwegh-CD#2)
HT-LS Grain Size (Herwegh-CD#2)
HT-LS High Strain Zone Evolution (Herwegh-CD#2)
HT-LS Mechanism Activity (Herwegh-CD#2)
HT-LS Microfabric Evolution (Herwegh-CD#2)
HT-LS Particle Orientation (PAROR) (Herwegh-CD#2)
HT-LS Strain (Herwegh-CD#2)
HT-LS Surface Orientation (SURFOR) (Herwegh-CD#2)
HT-LS Textural Evolution (Herwegh-CD#2)

Implications for folding (Williams-CD#1)
Inclinations (Herwegh-CD#2)
Input images (Heilbronner-CD#1)
Interfacial Dissolution, Diffusion, And Precipitation In A Viscous Multilayer (Fletcher-CD#1)
Introduction (Hafner-CD#2)
Introduction (Fletcher-CD#1)
Introduction (Park-CD#2)
Introduction (McLaren-CD#2)
introduction (Tullis-CD#1)
Introduction (Heilbronner-CD#1)
Introduction (Bosworth-CD#1)
Introduction (Vernon-CD#1)
Introduction (Urai-CD#2)
Introduction (Bayly-CD#1)
Introduction (Williams-CD#1)
IT-HS CPO area (Herwegh-CD#2)
IT-HS Deformation Mechanism Activity (Herwegh-CD#2)
IT-HS Grain Size (Herwegh-CD#2)
It-HS Mechanism Activity (Herwegh-CD#2)
IT-HS Microfabric Evolution (Herwegh-CD#2)
IT-HS Particle Orientation (PAROR) (Herwegh-CD#2)
IT-HS Shear Zone Evolution (Herwegh-CD#2)
IT-HS Strain (Herwegh-CD#2)
IT-HS Surface orientation (SURFOR) (Herwegh-CD#2)
IT-HS Textures (Herwegh-CD#2)

Kinematic interpretation of the microstructure (Williams-CD#1)

Lab 1a (Jessell-CD#1)
Lab 1b (Jessell-CD#1)
Lab 1c (Jessell-CD#1)
Lab 2a (Jessell-CD#1)
Lab 2b (Jessell-CD#1)
Lab 2c (Jessell-CD#1)
Lab 3a (Jessell-CD#1)
Lab 3b (Jessell-CD#1)
Lab 4A (Jessell-CD#1)
Lab 4B (Jessell-CD#1)
Lab 5A (Jessell-CD#1)
Lab 5B (Jessell-CD#1)
Lazy grain boundaries (Heilbronner-CD#1)
LAZY GRAIN SIZE ANALYSIS (Heilbronner-CD#1)
Lazy Grainboundaries (Grain boundary detection) (Heilbronner-CD#1)
Lazy LUT (Heilbronner-CD#1)
Lazy stack (Heilbronner-CD#1)
Lecture 1 (Jessell-CD#1)
Lecture 2 (Jessell-CD#1)
Lecture 3 (Jessell-CD#1)
Lecture 4a (Jessell-CD#1)
Lecture 4b (Jessell-CD#1)
Lecture 5a (Jessell-CD#1)
Lecture 5b (Jessell-CD#1)
LIBRARY OF ORIENTATION AND MISORIENTATION IMAGES (Heilbronner-CD#1)
Link List
List of Figures (Wilson-CD#2)
List of image sets (Heilbronner-CD#1)
LList of topics (Heilbronner-CD#1)
Localisation by experimental configuration (Herwegh-CD#2)
LT-HS CPO area (Herwegh-CD#2)
LT-HS Deformation Mechanism Activity (Herwegh-CD#2)
LT-HS Grain Size (Herwegh-CD#2)
LT-HS Mechanism Activity (Herwegh-CD#2)
LT-HS Microfabric Evolution (Herwegh-CD#2)
LT-HS Particle orientation (PAROR) (Herwegh-CD#2)
LT-HS Shear Zones (Herwegh-CD#2)
LT-HS Strain (Herwegh-CD#2)
LT-HS Surface orientation (SURFOR) (Herwegh-CD#2)
LT-HS Textures (Herwegh-CD#2)

Magma Chamber Elongation and Caldera Collapse Mechanisms (Bosworth-CD#1)
Magma chamber elongation as an indicator of intraplate stress field orientation: "borehole breakout mechanism" and examples from the Late Pleistocene to Recent Kenya Rift Valley (Bosworth-CD#1)
Making masks from the error and background images (Heilbronner-CD#1)
Making use of sample heterogeneity (Heilbronner-CD#1)
Marker+Shearband (Hafner-CD#2)
Marker+Shearband (Hafner-CD#2)
Material (Hafner-CD#2)
Melting of the Cooma Metapsammites (Vernon-CD#1)
Metamorphic differentiation (Williams-CD#1)
Metamorphic History (Vernon-CD#1)
Methods (Hafner-CD#2)
Micro-shear zone history (Herwegh-CD#2)
Microfabric (Herwegh-CD#2)
Microfabric evolution (Herwegh-CD#2)
Microstructural Changes and Deformation during the Phase Transformations in Solid Ammonium Nitrate (McLaren-CD#2)
Microstructural Development at Zero Strain Rate (Park-CD#2)
Microstructural Development During Deformation (Park-CD#2)
Microstructural Development in an Ammonium-based Partial Melt System (Park-CD#2)
Microstructural Relationships (Vernon-CD#1)
Microstructure of S2 (Williams-CD#1)
Misorientation analysis of grains undergoing dynamic recrystallization (Heilbronner-CD#1)
Misorientation analysis of host grain - recrystalled grain relation (Heilbronner-CD#1)
Misorientation with respect to reference direction (Heilbronner-CD#1)
Misorientations at grain boundaries (Heilbronner-CD#1)
More detail on the dynamic recrystallization of quartzite (Heilbronner-CD#1)
More detailon regime 1, 2 and 3 of dynamic recrystallization (Heilbronner-CD#1)
More references (Jessell-CD#1)
Motivation For This Paper (Hobbs-CD#1)

Name of Process or Mechanism (Jessell-CD#1)
NATURAL EXAMPLES (Heilbronner-CD#1)
Natural feldspar (Tullis-CD#1)
Natural feldspar: regime 1 (Tullis-CD#1)
Natural feldspar: regime 2 highly deformed (Tullis-CD#1)
Natural feldspar: regime 2 weakly deformed (Tullis-CD#1)
Natural qtz-fs (Tullis-CD#1)
Natural qtz-fs: mylonites (Red bank) (Tullis-CD#1)
Natural qtz-fs: strong deformation (Mulwarree) (Tullis-CD#1)
Natural qtz-fs: ultramylonites (Red bank) (Tullis-CD#1)
Natural qtz-fs: weak deformation (Mulwarree) (Tullis-CD#1)
Natural quartz (Tullis-CD#1)
Natural quartz: GBM (Tullis-CD#1)
Natural quartz: Semibrittle & bulging (Tullis-CD#1)
Natural quartz: SGR (Tullis-CD#1)
Natural quartz: undeformed (Tullis-CD#1)
Net (Hafner-CD#2)
Norcamphor (Herwegh-CD#2)
Numerical values (Bayly-CD#1)

Obliquity of Textural Skeleton (Herwegh-CD#2)
Octachloropropane movies (Urai-CD#2)
OIMC Introduction (Bobyarchick-CD#1)
Online Introduction to Mohr Circles (Bobyarchick-CD#1)
Opening angle (Herwegh-CD#2)
Optical orientation imaging (Heilbronner-CD#1)
OPTICAL ORIENTATION IMAGING (Heilbronner-CD#1)
ORIENTATION IMAGES OF EXPERIMENTALLY DEFORMED ROCKS (Heilbronner-CD#1)
Orientation imaging through the light microscope (Heilbronner-CD#1)
Origin of the Cooma Granite (Vernon-CD#1)
Overview (Herwegh-CD#2)

PDF Files
Phase Transformations in the Absence of an Externally Applied Stress (McLaren-CD#2)
Phase Transformations with an Externally Applied Stress (McLaren-CD#2)
Preparation (Hafner-CD#2)
Preview of the Conclusions (Bayly-CD#1)
Principal misorientation images (Heilbronner-CD#1)

Quartz mylonite from the Corvatsch (Heilbronner-CD#1)
Quartz mylonite from the Simplon fault zone (Heilbronner-CD#1)
Quartz veins from the Tonale fault (Heilbronner-CD#1)
Quartz veins from theGlarus thrust (Heilbronner-CD#1)

Recording the input images (Heilbronner-CD#1)
Reference List (Jessell-CD#1)
Reference list (Tullis-CD#1)
References (Williams-CD#1)
References (Urai-CD#2)
References (Park-CD#2)
References (Hobbs-CD#1)
References (Heilbronner-CD#1)
References (Vernon-CD#1)
References (McLaren-CD#2)
References (Fletcher-CD#1)
References (Hafner-CD#2)
References (Hafner-CD#2)
References (Bayly-CD#1)
References (Bons-CD#1)
References (Bosworth-CD#1)
Regime 1, 2 and 3 of dynamic recrystallization (Heilbronner-CD#1)
Relationship between foliation and strain (Williams-CD#1)
Rematching the stack (Heilbronner-CD#1)
Rf at 18 (Hafner-CD#2)
Rf13 (Hafner-CD#2)
Rheology (Hobbs-CD#1)
Ringshear (Hafner-CD#2)
Ringshear (Hafner-CD#2)
Ringshear (Hafner-CD#2)
Ringshear (Hafner-CD#2)
Rotation paths (Herwegh-CD#2)

Saving input data (Heilbronner-CD#1)
Second round: running CIP2 & INVPIMA (Heilbronner-CD#1)
Setting up the microscope and the scanner (Heilbronner-CD#1)
Setting up the microscope, the scanner and the computer (Heilbronner-CD#1)
Shape - texture relations (Heilbronner-CD#1)
Shear and rotation behaviour on different scales (Herwegh-CD#2)
Shear strain of 1.3 (Hafner-CD#2)
Shear Strain of 18 (Hafner-CD#2)
Shear Strain of 6.0 (Hafner-CD#2)
SOFTWARE (Heilbronner-CD#1)
Stability Fields (Herwegh-CD#2)
Starting material: Black Hills quartzite and Heavitree quartzite (Heilbronner-CD#1)
Steady state of microfabric elements (Herwegh-CD#2)
Steady State Textures (Herwegh-CD#2)
step 1 (Heilbronner-CD#1)
step 1 (Heilbronner-CD#1)
step 2 (Heilbronner-CD#1)
step 2 (Heilbronner-CD#1)
step 3 (Heilbronner-CD#1)
step 3 (Heilbronner-CD#1)
step 4 (Heilbronner-CD#1)
step 5 (Heilbronner-CD#1)
step 5 (Heilbronner-CD#1)
step 6 7 (Heilbronner-CD#1)
step 8 9 (Heilbronner-CD#1)
step4 (Heilbronner-CD#1)
Strain distribution pattern (Herwegh-CD#2)
Stress Field History (Bosworth-CD#1)
Stress-strain curve (Hafner-CD#2)
StripStar (Heilbronner-CD#1)
SUMMARY CIP (Heilbronner-CD#1)
Supplement 2 Diffusion and shear stress (Bayly-CD#1)
Supplement 3 Tensor expressions (Bayly-CD#1)
Supplement 1 The Laplacian operator in polar coordinates modified (Bayly-CD#1)

Table of contents (Tullis-CD#1)
Technical requirements (Heilbronner-CD#1)
Texture Evolution (Herwegh-CD#2)
The azimuth image (Heilbronner-CD#1)
The Broad Field (Bayly-CD#1)
The c-axis orientation image (COI) (Heilbronner-CD#1)
The c-axis polefigure (Heilbronner-CD#1)
The Classical Solution Extended (Bayly-CD#1)
The error image (Heilbronner-CD#1)
The formation of veins and their microstructures (Bons-CD#1)
The Growth Of A Mineral Segregation In A Pressure Shadow About A Circular Cylindrical Inclusion In A Newtonian Viscous Fluid (Fletcher-CD#1)
The inclination image (amplitude) (Heilbronner-CD#1)
The inclination image (circular polarization) (Heilbronner-CD#1)
The misorientation images (Heilbronner-CD#1)
The orientation gradient images (Heilbronner-CD#1)
The Problem (Hobbs-CD#1)
The W D Means CD-ROM
Three Examples of Metamorphic Differentiation (Fletcher-CD#1)
to use as book (Tullis-CD#1)
to use as slide collection (Tullis-CD#1)
Torsion rig (Hafner-CD#2)
Traces of high strain (Herwegh-CD#2)
Transition from gneiss to migmatite and the relationship of leucosome to peraluminous granodiorite in the Cooma Complex, SE Australia (Vernon-CD#1)

Various CLUTs for the c-axis orientation image (Heilbronner-CD#1)
VIEPS/Mainz Deformation Microstructures Course 2000 (Jessell-CD#1)
VIEPS/Mainz Deformation Microstructures Course 2000 (Jessell-CD#1)
Viewing the output of CIP2 (Heilbronner-CD#1)
Viewing the output of CIPD (Heilbronner-CD#1)
VISUALIZING ORIENTATIONS (Heilbronner-CD#1)
Volcanic and Structural Setting of the Rift Valley Floor (Bosworth-CD#1)