|
C-120
|
Environmental Stress Cracking (ESCR)
|
|
D-010
|
Solid Density
|
|
D-015
|
Melt Density
|
|
D-016
|
Bulk Density
|
|
D-017
|
Drying for Moisture Sensitive Materials
|
|
D-018
|
Moisture Analysis
|
|
D-019
|
Water Absorption
|
|
D-020
|
PVT (Isothermal Heating)
|
|
D-021
|
PVT (Isobaric)
|
|
D-022
|
Volumetric Expansion Coefficient by PVT
|
|
D-023
|
High Rate PVT by Hybrid PVT/DSC
|
|
D-024
|
Solid State Compressibility (PVT)
|
|
D-026
|
High Pressure PVT
|
|
D-040
|
Volumetric Expansion Coefficient by DMA
|
|
G-000
|
Moldflow/C-MOLD Filling
|
|
G-001
|
Moldflow/C-MOLD Filling + Juncture Losses
|
|
G-002
|
Moldflow/C-MOLD Post-Filling
|
|
G-003
|
Moldflow/C-MOLD Post-Filling + Juncture Losses
|
|
G-006
|
Moldflow/C-MOLD Uncorrected Isotropic Shrinkage
|
|
G-007
|
Moldflow/C-MOLD Uncorrected Anisotropic Shrinkage
|
|
G-009
|
Moldflow/C-MOLD Mechanicals for Uncorrected Anisotropic Shrinkage
|
|
G-010
|
C-MOLD Filling/Cooling
|
|
G-011
|
C-MOLD Filling/Cooling + Juncture Loss (Bagley correction)
|
|
G-012
|
C-MOLD Post Filling for Amorphous Plastics
|
|
G-013
|
C-MOLD Post Filling + Juncture Loss for Amorphous Plastics
|
|
G-014
|
C-MOLD Anisotropic Shrinkage & Warpage (Amorphous Plastics)
|
|
G-015
|
C-MOLD Isotropic Shrinkage & Warpage (Amorphous Plastics)
|
|
G-017
|
C-MOLD Post Filling for Semi-Crystalline Plastics
|
|
G-018
|
C-MOLD Anisotropic Shrinkage for Semi-Crystalline Plastics
|
|
G-114
|
Moldflow CRIMS Shrinkage
|
|
G-115
|
Moldflow CRIMS Shrinkage + Juncture Losses
|
|
G-116
|
Moldflow MF/Stress Anisotropic
|
|
G-117
|
Moldflow MF/Stress Isotropic
|
|
G-120
|
Autodesk Helius PFA
|
|
G-150
|
Moldex3D Flow/Cool
|
|
G-152
|
Moldex3D Flow/Pack/Cool
|
|
G-154
|
Moldex3D Flow/Pack/Cool/Warp (Isotropic)
|
|
G-155
|
Moldex3D Flow/Pack/Cool/Warp (Anisotropic)
|
|
G-158
|
Moldex3D Isotropic Mechanical Properties
|
|
G-159
|
Moldex3D Anisotropic Mechanical Properties
|
|
G-170
|
DIGIMAT MX Elastic eX-E
|
|
G-171
|
DIGIMAT MX Elasto-Plastic (J2_EP)
|
|
G-171RE
|
DIGIMAT J2_EP Reverse Engineering
|
|
G-172
|
DIGIMAT MX Druker Prager (DP)
|
|
G-172RE
|
DIGIMAT DP Reverse Engineering
|
|
G-173
|
DIGIMAT MX Elasto-plastic with Damage (EP+D)
|
|
G-173RE
|
DIGIMAT EP+D Reverse Engineering
|
|
G-174
|
DIGIMAT MX Crash (EVP)
|
|
G-174RE
|
DIGIMAT EVP Reverse Engineering
|
|
G-175
|
DIGIMAT MX Creep (TEVP)
|
|
G-175RE
|
DIGIMAT TEVP Reverse Engineering
|
|
G-176
|
DIGIMAT MX Warpage (Thermomechanic)
|
|
G-176RE
|
DIGIMAT TE Reverse Engineering
|
|
G-178
|
DIGIMAT MX Crash (EVP) Multi-Direction Rate Dependent Model
|
|
G-190
|
Altair Multiscale Designer for Unidirectional Composites [Continuous Unidirectional]
|
|
G-191
|
Altair Multiscale Designer for Woven Composites [Continuous Weave]
|
|
G-192
|
Altair Multiscale Designer for Chopped Fiber Composites [Discontinuous]
|
|
G-210
|
I-DEAS Mold Fill/Cool
|
|
G-212
|
I-DEAS Packing
|
|
G-215
|
I-DEAS Isotropic Viscoelastic Shrink/Warp
|
|
G-216
|
I-DEAS Isotropic Shrink/Warp
|
|
G-220
|
VISI Flow Filling
|
|
G-222
|
VISI Flow Filling/Thermal
|
|
G-224
|
VISI Flow Shape
|
|
G-242
|
SIMPOE Thermoplastic Filling Analysis
|
|
G-244
|
SIMPOE Thermoplastic Filling Analysis with Warpage
|
|
G-250
|
Cadmould Filling
|
|
G-251
|
Cadmould Packing
|
|
G-260
|
SIGMASOFT Thermoplastic: Unfilled Amorphous Material
|
|
G-262
|
SIGMASOFT Thermoplastic: Filled Amorphous Material
|
|
G-264
|
SIGMASOFT Thermoplastic: Unfilled Semi-Crystalline Material
|
|
G-266
|
SIGMASOFT Thermoplastic: Filled Semi-Crystalline Material
|
|
G-268
|
SIGMASOFT Elastomer: Standard Filling + Curing
|
|
G-269
|
SIGMASOFT MIM
|
|
G-270
|
PlanetsX Flow / Pack / Cool (Thermoplastic Resin)
|
|
G-271
|
PlanetsX Flow / Pack / Cool / Warp (Thermoplastic Resin)
|
|
G-274
|
PlanetsX Flow / Pack/ Cool (Thermosetting Resin)
|
|
G-275
|
PlanetsX Flow / Pack/ Cool/ Warp (Thermosetting Resin)
|
|
G-310
|
POLYFLOW Extrusion (Viscous Isothermal)
|
|
G-312
|
POLYFLOW Extrusion (Viscous Non-Isothermal)
|
|
G-314
|
POLYFLOW Extrusion (Iso-Thermal Viscoelastic)
|
|
G-315
|
POLYFLOW Extrusion (Viscoelastic)
|
|
G-320
|
POLYFLOW Thermoforming (Isothermal)
|
|
G-321
|
POLYFLOW Thermoforming (Non-Isothermal)
|
|
G-330
|
POLYFLOW Blow Molding (Isothermal)
|
|
G-331
|
POLYFLOW Blow Molding (Non-Isothermal)
|
|
G-350
|
Polycad
|
|
G-360
|
VEL Basic
|
|
G-361
|
VEL Basic + Melt Thermal Properties
|
|
G-362
|
VEL Basic + Melt & Solid Thermal Properties
|
|
G-363
|
VEL Basic + Normal Stress & Elongational Viscosity
|
|
G-370
|
Altair HyperXtrude
|
|
G-380
|
WinTXS Melt Only TestPak
|
|
G-382
|
WinTXS General TestPak
|
|
G-390
|
PELDOM Isothermal TestPak
|
|
G-392
|
PELDOM Non-Isothermal TestPak
|
|
G-393
|
PolyXtrue Extrusion TestPak
|
|
G-394
|
PolyXtrue Extrusion Economy TestPak
|
|
G-410
|
FIDAP CFD Isothermal
|
|
G-430
|
Universal TestPak-Elastic Plastic Model
|
|
G-432
|
Universal TestPak-Hyperelastic (Incompressible)
|
|
G-434
|
Universal TestPak-Hyperelastic (Compressible)
|
|
G-460
|
Universal TestPak-Rate Dependent Model
|
|
G-510
|
VSS Crash / Foam Strain Rate Dependent Foam
|
|
G-520
|
VSS Strain Rate Dependent Isotropic Material
|
|
G-540
|
VSS Isothermal Forming
|
|
G-542
|
VSS Non-Isothermal
|
|
G-550
|
VSS Static Comfort/Textile (Material Type 151)
|
|
G-551
|
VSS Padding (Static)
|
|
G-552
|
VSS Static Comfort / Foam(Material Type 45)
|
|
G-553
|
VSS Dynamic Comfort / Foam(Material Type 45)
|
|
G-600
|
Altair RADIOSS Elastic Material Model (Law 1)
|
|
G-601
|
Altair RADIOSS Johnson-Cook Quasi-Static Material Model (Law 2)
|
|
G-602
|
Altair RADIOSS Tensile Rate Dependent Model (Laws: 2, 36, 44)
|
|
G-603
|
Altair RADIOSS Quasi-Static Foam Material (Law 70)
|
|
G-604
|
Altair RADIOSS Rate Dependent Foam Model (Law 70)
|
|
G-605
|
Altair RADIOSS Rate Dependent Foam Model with Unloading (Law 70)
|
|
G-606
|
Altair RADIOSS Hyperelastic Model (Law 42, 69)
|
|
G-607
|
Altair RADIOSS Hyperelastic Model with Viscoelasticity (Law 42)
|
|
G-610
|
EXTRUD Extrusion (Non-Isothermal)
|
|
G-620
|
Altair Hyperelastic Non-Compressible
|
|
G-621
|
Altair Hyperelastic with Compressibility
|
|
G-622
|
Altair Viscoelastic Model
|
|
G-623
|
Altair Mullins Effect Add-on
|
|
G-653
|
SolidWorks Nonlinear Elastic
|
|
G-654
|
SolidWorks Plasticity – von Mises
|
|
G-660
|
SolidWorks HyperElastic – Ogden and Mooney Rivlin
|
|
G-662
|
SolidWorks Viscoelastic (Creep)
|
|
G-680
|
Autodesk Inventor Isotropic Elastic Model
|
|
G-705
|
Abaqus Isotropic Elastic Model (*ELASTIC)
|
|
G-706
|
Abaqus Orthotropic Composite
|
|
G-708
|
Abaqus Metal Forming (*ELASTIC *CREEP, OPTION=POTENTIAL)
|
|
G-709
|
Abaqus Finite Elastic Plasticity (*HYPERELASTIC *PLASTIC)
|
|
G-711
|
Abaqus Elastic and Plastic model (*ELASTIC *PLASTIC)
|
|
G-712
|
Abaqus Rate Dependent Viscoplastic (*RATE DEPENDENT)
|
|
G-720
|
Abaqus Hyperelastic Incompressible (*HYPERELASTIC)
|
|
G-722
|
Abaqus Hyperelastic Compressible (*HYPERELASTIC)
|
|
G-723
|
Abaqus Hyperfoam (*HYPERFOAM)
|
|
G-724
|
Abaqus Crushable Foam (*ELASTIC *CRUSHABLE FOAM)
|
|
G-725
|
Abaqus Crushable Foam with Rate Dependency (*ELASTIC, *CRUSHABLE FOAM, OPTION=RATE DEPENDENT)
|
|
G-730
|
Abaqus Creep Model (*CREEP, LAW=TIME)
|
|
G-740
|
Abaqus Stress Relaxation (*VISCOELASTIC, TIME=RELAXATION)
|
|
G-742
|
Abaqus Viscoelastic Model (*VISCOELASTIC)
|
|
G-743
|
Abaqus Non-Linear NVH Model - Rubber and Foam
|
|
G-744
|
Abaqus Creep (*VISCOELASTIC, TIME=CREEP)
|
|
G-751
|
ANSYS Kinematic Hardening (BKIN, MKIN/KINH)
|
|
G-753
|
ANSYS Isotropic Hardening (BISO, MISO)
|
|
G-754
|
ANSYS non-linear kinematic hardening Chaboche model (CHABOCHE)
|
|
G-755
|
ANSYS Viscoelastic (TB, Prony or EVISC)
|
|
G-757
|
ANSYS Creep (CREEP)
|
|
G-759
|
ANSYS Ogden Foam
|
|
G-760
|
ANSYS Hyperelastic w/ compressibility (HYPER)
|
|
G-761
|
ANSYS Hyperelastic (HYPER)
|
|
G-763
|
ANSYS Gasket (GASKET)
|
|
G-771
|
LS-DYNA High Speed Tensile Rate Dependent Model (MAT_019 or MAT_024 or MAT_089)
|
|
G-771V
|
LS-DYNA Validated High Speed Tensile Rate Dependent Model (MAT_019 or MAT_024 or MAT_089)
|
|
G-772
|
LS-DYNA High Speed Foam Model (MAT_083 or MAT_163)
|
|
G-776
|
LS-DYNA GISSMO Failure Model
|
|
G-776I
|
LS-DYNA (MAT_024 or SAMP)+GISSMO shell element failure model for metals
|
|
G-778
|
LS-DYNA SAMP-1 Semi-Analytical Model for Plastic (MAT_187)
|
|
G-778I
|
LS-DYNA SAMP+GISSMO shell element failure model for ductile plastic (MAT_187+GISSMO)
|
|
G-780
|
LS-DYNA Hyperelastic (MAT_027)
|
|
G-782
|
LS-DYNA Hyperviscoelastic Rubber (MAT_077)
|
|
G-784
|
LS-DYNA Simplified Rubber with Rate Dependency (MAT_181)
|
|
G-790
|
LS-DYNA Forming (Barlat 3-parameter model: MAT_036)
|
|
G-791
|
LS-DYNA Transversely Anisotropic Elastic Plastic (MAT_037)
|
|
G-792
|
LS-DYNA Isotropic Elastic (MAT_001)
|
|
G-793
|
LS-DYNA Plastic Kinematic (MAT_003)
|
|
G-794
|
LS-DYNA Laminated Composite Fabric (MAT_054)
|
|
G-801
|
MSC.NASTRAN Linear Elastic (MAT1)
|
|
G-805
|
MSC.NASTRAN Orthotropic Elastic (MAT8)
|
|
G-807
|
MSC.NASTRAN Plasticity Model (MATS1)
|
|
G-808
|
MSC.NASTRAN Temp. Dependent Linear Elastic (MATT1)
|
|
G-810
|
MSC.NASTRAN Hyperelastic Incompressible Model (MATHP)
|
|
G-811
|
MSC.NASTRAN Hyperelastic Compressible Model (MATHP)
|
|
G-814
|
MSC.NASTRAN Creep Model (CREEP)
|
|
G-860
|
MSC.Dytran Isotropic Elastic (DMATEL)
|
|
G-869
|
MSC.Dytran Piecewise Linear Plasticity (Quasi-Static Properties) (DYMAT24)
|
|
G-870
|
MSC.Dytran Rate Dependent Flexural Piecewise Linear Plasticity (DYMAT24)
|
|
G-871
|
MSC.Dytran Rate Dependent Tensile Piecewise Linear Plasticity
|
|
G-901
|
MSC.MARC Linear Isotropic
|
|
G-905
|
MSC.MARC Orthotropic Linear Elastic
|
|
G-907
|
MSC.MARC Strain Rate Dependent Non-Linear
|
|
G-908
|
MSC.MARC Work Hardening Model
|
|
G-909
|
MSC.MARC Mechanical Temperature
|
|
G-910
|
MSC.MARC Creep/Stress Relaxation Model
|
|
G-912
|
MSC.MARC Isotropic Viscoelastic
|
|
G-914
|
MSC.MARC Hyperelastic Model
|
|
G-925
|
NX Nastran Linear Elastic (MAT1)
|
|
G-929
|
NX Nastran Isotropic Heat Transfer (MAT4)
|
|
G-932
|
NX Nastran Orthotropic (MAT8)
|
|
G-936
|
NX Nastran Gasket Material (MATG)
|
|
G-937
|
NX Nastran Hyperelastic (MATHE)
|
|
G-938
|
NX Nastran Hyperelastic Incompressible (MATHP)
|
|
G-939
|
NX Nastran Hyperelastic (Compressible) (MATHP)
|
|
G-940
|
NX Nastran Material Stress Dependence (MATS1)
|
|
G-941
|
NX Nastran Isotropic Temperature Dependence (MATT1)
|
|
G-942
|
NX Nastran Isotropic Creep (CREEP)
|
|
G-950
|
T-SIM Basic
|
|
G-951
|
T-SIM Basic + Thermal Properties
|
|
G-980
|
B-SIM Basic
|
|
G-981
|
B-SIM Basic + Thermal Properties
|
|
I-002
|
Incodema3D Microstructure
|
|
M-010
|
Anisotropic Tensile Moduli
|
|
M-011
|
Tensile Modulus
|
|
M-012
|
Compressive Modulus
|
|
M-013
|
Orthotropic In-Plane Shear Modulus (Includes M-010, M-101)
|
|
M-014
|
Bulk Modulus (Up To 8 Temperatures)
|
|
M-015
|
Flexural Modulus and Strength
|
|
M-016
|
Tensile Modulus, Strength and Elongation
|
|
M-017
|
In-Plane Shear Modulus (Plate Twist Method)
|
|
M-030
|
Tensile Strength
|
|
M-031
|
Compressive Strength
|
|
M-032
|
Tear Strength of Rubber
|
|
M-033
|
Blocking Strength
|
|
M-034
|
Short Beam Shear Strength
|
|
M-034C
|
Short Beam Shear Strength for Composite Materials
|
|
M-035
|
Plastic Point in Tension
|
|
M-036
|
Plastic Point in Flexure
|
|
M-037
|
Plastic Point In Compression
|
|
M-038
|
Shear Strength
|
|
M-040
|
Bearing Strength
|
|
M-040C
|
Bearing Response for Composite Materials
|
|
M-041
|
Lap Shear Strength
|
|
M-043
|
Peel Test
|
|
M-050
|
Open Hole Tension (OHT)
|
|
M-051
|
Open Hole Compression (OHC)
|
|
M-052
|
Fracture Toughness and Strain Energy Release Rate
|
|
M-052M
|
Fracture Toughness of Metals (K1c)
|
|
M-053M
|
Crack Propagation of Metallic Materials
|
|
M-060
|
Coefficient of Friction (Static and Dynamic)
|
|
M-067
|
Abrasion Test, Filament & Wire
|
|
M-068
|
Taber Abrasion Test
|
|
M-101
|
Poisson’s Ratio and Tensile Modulus
|
|
M-102
|
Poisson’s Ratio and Tensile Modulus (2-3 Direction)
|
|
M-130
|
Tensile Strength with Plots
|
|
M-204
|
Tensile Stress-Strain, Strength, and Modulus
|
|
M-204 MTL
|
Tensile Stress-Strain for Round Metallic Specimens (Nadcap)
|
|
M-204C
|
Tensile Stress-Strain, Strength, and Modulus for Composite Materials
|
|
M-204C_45
|
In-Plane Shear Stress-Strain, Strength and Modulus by Tensile test of a ±45° laminate
|
|
M-204HT
|
High Temperature Tensile Stress Strain for Metals
|
|
M-204V 2D
|
Tensile Stress-Strain, Strength, and Modulus using 2D DIC
|
|
M-204V 3D
|
True Stress Strain Measurements Using 3D DIC
|
|
M-205
|
Tensile Properties of Elastomers
|
|
M-206
|
Tensile Stress-Strain, Strength, Modulus and Poisson's Ratio
|
|
M-206C
|
Tensile Stress-Strain, Strength, Modulus, and Poisson's ratio for Composite Materials
|
|
M-209
|
Combined Loading Compression (CLC)
|
|
M-209C
|
Combined Loading Compression (CLC) for composite materials
|
|
M-209C_strength
|
Compressive Strength using Combined Loading Compression (CLC) for composite materials
|
|
M-210
|
Compressive Stress-Strain, Strength and Modulus
|
|
M-211
|
Lubricated Compressive Stress-Strain (Biaxial Tension)
|
|
M-212
|
Compressive Properties of Elastomers
|
|
M-213
|
Confined Compression Stress-Strain (Hydrostatic, for rubbers)
|
|
M-214
|
Volumetric Stress Strain Curves
|
|
M-215
|
Compressive Properties of Foam with Unloading
|
|
M-218
|
Equibiaxial Tension of Elastomers
|
|
M-219
|
Shear Stress-Strain
|
|
M-219C
|
Shear Stress-Strain for Composite Materials
|
|
M-219RS
|
Shear Stress-Strain using Rail Shear method
|
|
M-220
|
Planar Tension (Shear)
|
|
M-221
|
3 Point Flexural Stress-Strain, Strength and Modulus
|
|
M-221C
|
3 Point Flexural Stress-Strain, Strength and Modulus for Composite Materials
|
|
M-225
|
4 Point Flexural Stress-Strain, Strength and Modulus
|
|
M-225C
|
4 Point Flexural Stress-Strain, Strength and Modulus for Composite Materials
|
|
M-230
|
High Speed 3 Point Flexural Stress-Strain
|
|
M-231
|
High Speed Compressibility of Foams and Elastomers
|
|
M-232
|
High Speed Tensile Stress-Strain
|
|
M-233
|
High Speed Compressive Stress-Strain
|
|
M-235
|
Very High Speed Tensile Stress-Strain
|
|
M-242
|
Biaxial Force and Surface Strain by Punch Test
|
|
M-245
|
Forming Limit Diagram (FLD)
|
|
M-250
|
Tensile Creep
|
|
M-250H
|
Tensile Creep With Humidity
|
|
M-250HT
|
High Temperature Tensile Creep
|
|
M-251
|
Compressive Creep
|
|
M-252
|
Flexural Creep
|
|
M-260
|
Compression Set of Rubbers (Constant Deflection)
|
|
M-266
|
Long Term Instrumented Stress Relaxation
|
|
M-410
|
Dynatup Instrumented Impact
|
|
M-411
|
Low Speed Multiaxial Punch
|
|
M-412
|
Falling Dart Uninstrumented Impact
|
|
M-425
|
Izod Pendulum Impact
|
|
M-425Q
|
Izod Quality
|
|
M-427
|
Charpy Pendulum Impact
|
|
M-502
|
Flexural Fatigue
|
|
M-504
|
Flexural Fatigue S-N Curves
|
|
M-508
|
Tensile Fatigue S-N Curve
|
|
M-508M
|
Tensile Fatigue S-N Curve of Metals (up to 60 Hz)
|
|
M-509
|
3 pt. Flexural Fatigue S-N Curve
|
|
M-512
|
Tensile Fatigue
|
|
M-512M
|
Tensile Fatigue of Metals (up to 60 Hz)
|
|
M-513M
|
Strain Controlled Fatigue of Metallic Materials (Up to 2 Hz)
|
|
M-515M
|
Strain Controlled Tensile Fatigue E-N curves for Metals (Up to 2 Hz)
|
|
M-600
|
DMA - Tensile/Compressive ( 0.1-100 Hz)
|
|
M-600t
|
DMA- Tensile/Compressive Mastercurve
|
|
M-601
|
DMA - Torsional (5 Temperatures, 0.1-500/s)
|
|
M-602
|
DMA - Flexural (0.1-100 Hz)
|
|
M-603
|
Shear Modulus vs. Temperature by DMA
|
|
M-604
|
Flexural Modulus vs. Temperature by DMA
|
|
M-605
|
Tensile Modulus vs. Temperature by DMA
|
|
M-606
|
Compressive Modulus vs. Temperature by DMA
|
|
M-610
|
Stress Relaxation/ Creep Compliance by DMA
|
|
M-611
|
Stress Relaxation/Creep Compliance by Time Sweeps
|
|
M-615
|
Creep-Relaxation by DMA-tensile, compressive or flex
|
|
M-620
|
Dynamic Hysteresis Loop
|
|
M-621
|
Cyclic Mullins Effect
|
|
M-622
|
Cyclic Hardening Stress-Strain
|
|
M-623
|
Cyclic Damage of Plastics
|
|
M-624
|
Stepwise Tensile Stress Relaxation
|
|
M-625
|
Stepwise Compressive Stress Relaxation
|
|
M-626
|
Tensile Stress Relaxation (up to 4 hours hold time)
|
|
P-110
|
Heat Aging
|
|
P-111
|
Conditioning per ISO 1110
|
|
P-210
|
Test Specimen Photo Documentation
|
|
Q-123
|
Extrusion Blow Molding Processability
|
|
Q-305
|
WSS-M99D68-A1
|
|
Q-306 (exterior)
|
WSS-M99D68-A2 (exterior applications)
|
|
Q-306 (interior)
|
WSS-M99D68-A2 (interior applications)
|
|
Q-307 FNPA
|
WSS-M99D68-A3 Filled non-polyamide
|
|
Q-307 FPA
|
WSS-M99D68-A3 Filled polyamide
|
|
Q-307 UNPA
|
WSS-M99D68-A3 Unfilled non-polyamide
|
|
Q-307 UPA
|
WSS-M99D68-A3 Unfilled polyamide
|
|
Q-308
|
WSS-M99P51-A1
|
|
R-011
|
Capillary Rheology (1 Temperature)
|
|
R-012
|
Capillary Rheology with Bagley Correction (1 Temperature)
|
|
R-013
|
Very High Shear Capillary Rheology (1 Temperature)
|
|
R-014
|
Cogswell Extensional Viscosity
|
|
R-015
|
Thermal Flow Stability
|
|
R-016
|
Mooney Slip
|
|
R-018
|
No-Flow Temperature
|
|
R-019
|
Rheotens Melt Elasticity
|
|
R-020
|
DMA Cone and Plate Dynamic Rheology (1 Temperature)
|
|
R-021
|
DMA Cone and Plate Steady Shear Rheology (1 Temperature)
|
|
R-022
|
DMA Parallel Plate Dynamic Rheology (3 Temperatures)
|
|
R-023
|
First Normal Stress Difference by DMA (1 Temperature)
|
|
R-024
|
Characteristic Relaxation Time by DMA (5 Temperatures)
|
|
R-025
|
Thermal Stability by Cone and Plate DMA
|
|
R-026
|
Transition Temperature by DMA
|
|
R-027
|
Cure Kinetics by DMA-isothermal
|
|
R-028
|
Cure Kinetics by DMA -non isothermal
|
|
R-030
|
Die Swell Measurements by Laser Micrometry
|
|
R-032
|
Static Die Swell/Sag by Laser Micrometry
|
|
R-035
|
Slit-Die Rheology (1 Temperature, 1 Die)
|
|
R-040
|
Equibiaxial Elongational Viscosity (1 Temperature, 1 Strain Rates)
|
|
R-042
|
Peldom Elongational Viscosity
|
|
SC-101
|
FTIR Analysis
|
|
SC-102
|
FTIR with EDS
|
|
SC-103
|
Pyrolysis Mass-Spec Analysis
|
|
SC-104
|
FTIR (micro) with EDS
|
|
SC-105
|
Ash Content by Muffle Furnace
|
|
SC-107
|
Flammability
|
|
SC-201
|
Molecular Weight by GPC
|
|
SC-210
|
Fogging Test
|
|
SC-211
|
Thermal Oxidative Stability
|
|
SH-100
|
Western Europe Small Sample PickUp- 2 kg Limit
|
|
SH-200
|
Western Europe Large Sample PickUp- 25 kg Limit
|
|
SM-065
|
Rockwell Hardness
|
|
SM-067
|
Durometer Hardness
|
|
SM-210
|
Optical Haze / Optical Transmission
|
|
SO-200
|
Matereality Personal Material DatabasePro
|
|
SO-201
|
Matereality Workgroup Annual Subscription-5
|
|
SO-202
|
Matereality Workgroup DatabasePro
|
|
SO-202
|
Matereality Workgroup DatabasePro
|
|
SO-220
|
Matereality Material Supplier Database
|
|
SO-245
|
Matereality Scaled Material Data Server
|
|
SO-280
|
Matereality ANSYS DatabaseLite Upgrade
|
|
SP-101
|
Specimen Molding Services
|
|
SP-105
|
Specimen Machining Services
|
|
SR-010
|
Melt Flow Rate
|
|
SR-011
|
Relative Viscosity
|
|
SR-095
|
Brookfield Viscosity
|
|
ST-308
|
Mold Shrinkage
|
|
T-010
|
DSC Scan
|
|
T-012
|
Transition and Eject Temperature
|
|
T-015
|
Specific Heat
|
|
T-015 GM
|
Specific Heat for GM applications
|
|
T-020
|
Heat Deflection Temperature
|
|
T-021
|
Vicat Softening Temperature
|
|
T-101
|
Thermal Conductivity (Melt)
|
|
T-102
|
Thermal Conductivity (Solid)
|
|
T-103
|
Thermal Conductivity Scan
|
|
T-107
|
Thermal Conductivity by Guarded Heat Flow Meter (Single Point)
|
|
T-108
|
Thermal Conductivity by Guarded Heat Flow Meter (Scan)
|
|
T-110
|
Thermal Conductivity of Films by Guarded Heat Flow Meter
|
|
T-150
|
Heat Transfer Coefficient
|
|
T-201
|
Carbon Black Content by TGA
|
|
T-203
|
Thermogravimetric Analysis (TGA)
|
|
T-302
|
Thermal Expansion Coefficient by TMA (Anisotropic)
|
|
T-302 GM
|
Thermal Expansion Coefficient by TMA (Anisotropic) for General Motors applications
|
|
T-303
|
Thermal Expansion Coefficient by TMA
|
|
T-310
|
Thermal Diffusivity by Laser Flash (Scan)
|
|
T-311
|
Thermal Diffusivity by Laser Flash (Single Point)
|
|
U-060
|
Universal TestPak-Injection Molding of Isotropic Materials
|
|
U-061
|
Universal TestPak-Injection Molding of Anisotropic Materials
|
|
U-063
|
Moldflow CRIMS Shrinkage Option
|
|
U-064 UF
|
SIGMASOFT Shrinkage Option for unfilled materials
|
|
U-065
|
Juncture Loss Option for Moldflow
|
|
V-101
|
Falling Dart Impact Validation for LS-DYNA Crash Material Model
|
|
V-102
|
Falling Dart Impact Validation for Abaqus Crash Models
|
|
V-150
|
Ribbed Plaque Flexural Validation for Abaqus *Elastic *Plastic Model
|
|
V-151
|
Ribbed Plaque Flexural Validation for Elastic Plastic Model
|
|
V-160
|
Compressive Validation for ANSYS Hyperelastic Model
|
|
V-170
|
Torsional Crank Validation of Additive Material Models in ANSYS
|
|
V-171
|
Torsional Crank Validation of Additive Material Models in Abaqus
|
|
V-172
|
Torsional Crank Validation of Additive Material Models in RADIOSS
|
|
Z-995
|
Bagged specimen return
|
|
Z-996
|
Data Unit Conversion
|
|
Z-998
|
Data Analysis
|
|
Z-999
|
Custom Test
|