True Stress / True Strain - TRL

MECHANICAL TESTING LABORATORY

Due to the very large number of tests offered, descriptions of those most commonly requested have been gathered into the following groups:

Air Permeability Testing
- ASTM D737 – Air Permeability of Textile Fabrics
Axial-Torsion Testing
Blast Testing – Armor, Blast Mitigation Materials, Custom Structures
Carbon Fiber-Reinforced Epoxy Testing
- ASTM D3531 – Resin Flow
- ASTM D3532 – Gel Time
Component Testing
Compression Testing
- ASTM C365 – Flatwise Compressive Properties of Sandwich Cores
- ASTM C1358 – Compression Testing of Fiber Reinforced Advanced Ceramics
- ASTM D695 – Compression Testing of Rigid Plastics
  - SACMA Compression
- ASTM D1621 – Compression Testing of Rigid Cellular Plastics
- ASTM D3410 – Compression Testing of Polymer Matrix Composite Materials using Unsupported Gage Section by Shear Loading
- ASTM D6641 – Compression Testing of Polymer Matrix Composite Materials using Combined Loading Compression (CLC)
- ASTM E9 – Compression Testing of Metals
- ISO 604 – Plastics – Determination of Compressive Properties
- ISO 844 – Rigid Cellular Plastics – Determination of Compression Properties
Conditioning
- ASTM D618 – Standard Practice for Conditioning Plastics for Testing
- ASTM D5229 – Moisture Absorption Properties and Equilibrium Conditioning of Polymer Matrix Composite Materials
- ISO 291 – Plastics – Standard Atmospheres for Conditioning and Testing
Creep/Stress Rupture Testing
- ASTM D2990 – Tensile, Compressive and Flexural Creep and Creep-Rupture of Plastics
- ASTM E139 – Conducting Creep, Creep-Rupture and Stress-Rupture Tests on Metallic Material
Density Testing
- ASTM C271 – Density of Sandwich Core Materials
Fatigue Testing
- ASTM C1360 – Constant Amplitude, Axial, Tension-Tension Cyclic Fatigue Testing of Continuous Fiber-Reinforced Advanced Ceramics
  - Tests can be performed at temperatures up to 2500 °F
- ASTM C1361 – Constant Amplitude, Axial, Tension-Tension Cyclic Fatigue Testing of Advanced Ceramics
  - Tests can be performed at temperatures up to 2500 °F
- ASTM D3479 – Tension – Tension Fatigue Testing of Polymer Matrix Composite Materials
- ASTM D7791 – Uniaxial Fatigue Properties of Plastics
- ASTM E466 – Force Controller Constant Amplitude Axial Fatigue Testing of Metallic Materials
  - Tests can be performed at temperatures up to 2200 °F
- ASTM E606 – Strain-Controlled Fatigue Testing
  - Tests can be performed at temperatures up to 2200 °F
- ASTM E647 – Measurement of Fatigue Crack Growth Rates (da/dN)
Fiber Push-Out SEM Testing
Flexural Strength Testing
- ASTM C158 – Strength of Glass by Flexure
- ASTM C393 – Core Shear Properties Testing of Sandwich Constructions by Beam Flexure
- ASTM C651 – Flexural Strength of Carbon and Graphite by Four-Point Loading
- ASTM C1161 – Flexural Strength Testing of Advanced Ceramics
- ASTM C1341 – Flexural Properties of Continuous Fiber-Reinforced Advanced Ceramic Composites
- ASTM D790 – Flexural Properties Testing of Unreinforced and Reinforced Plastics
- ASTM D4476 – Flexural Properties Testing of Fiber Reinforced Pultruded Plastic Rods
- ASTM D6272 – Flexural Properties Testing of Unreinforced and Reinforced Plastics by Four-Point Bending
- ASTM D7264 – Flexural Properties Testing of Polymer Matrix Composite Materials
- ISO 178 – Plastics – Determination of Flexural Properties
- ISO 14125 (Method B) – Fibre-Reinforced Plastic Composites – Determination of Flexural Properties
Formability Testing
- ASTM E643 – Ball Punch Deformation Testing of Metallic Sheet Material
- DIN EN 1669 – Earing Test for Sheet and Strip Aluminum and Aluminum Alloys
Fracture Toughness Testing
- ASTM B646 – Fracture Toughness Testing of Aluminum Alloys
- ASTM E399 – (K-Value) Linear-Elastic Plane-Strain Fracture Toughness of Metallic Materials
- ASTM E561 – K-R Curve Determination Testing
- ASTM E740 – Fracture Testing with Surface-Crack Tension Specimens
- ASTM E1820 -Measurement of Fracture Toughness
  - Plane Stress / Plane Strain
Impact / Drop Weight Testing
- ASTM D256 – Izod Pendulum Impact Resistance of Plastics
- ASTM E23 – Notched Bar Impact Test of Metallic Materials
- ASTM E436 – Drop-Weight Tear Tests for Ferritic Steels
- High Energy Drop Weight Impact Testing
Metal Matrix Composites
Peel Testing
- ASTM D1781 – Climbing drum Peel for Adhesives
- ASTM E2004 – Facing Cleavage of Sandwich Panels
Poisson’s Ratio Testing
- ASTM E132 – Testing Poisson’s Ratio at Room Temperature
  - -150 °F to +300 °F
Puncture Testing
- ASTM D4833 – Puncture Resistance of Geomembranes and Related Products
Shear Testing
- ASTM B769 – Shear Testing of Aluminum Alloys
- ASTM C273 – Shear Properties Testing of Sandwich Core Materials
- ASTM C1292 – Shear Strength Testing of Continuous Fiber-Reinforced Advanced Ceramics
- ASTM D732 – Shear Strength Testing of Plastics
- ASTM D2344 – Short-Beam Strength Testing of Polymer Matrix Composite Materials (Interlaminar Shear)
- ASTM D3528 – Strength Properties Testing of Double Lap Shear Adhesive Joints by Tension Loading
- ASTM D3846 – In-Plane Shear Strength Testing of Reinforced Plastics
- ASTM D3914 – In-Plane Shear Strength Testing of Pultruded Glass-Reinforced Plastic Rods
- ASTM D5379 – Shear Properties Testing of Composite Materials by the V-Notched Beam Method (Iosipescu Shear)
- ASTM D7078 – Shear Properties Testing of Composite Materials by V-Notched Rail Shear
- ISO 1922 – Determination of Shear Strength of Rigid Cellular Plastics
- ISO 4587 – Tensile Lap-Shear Strength of Rigid-to-Rigid Bonded Assemblies
Stress-Corrosion Testing
- ASTM G38 – Standard Practice for Making and Using C-Ring Stress-Corrosion Test Specimens
- ASTM G49 – Standard Preparation and Use of Direct Tension Stress-Corrosion Test Specimens
- ASTM G64 – Classification of Resistance to Stress-Corrosion Cracking of Heat-Treatable Aluminum Alloys
- ASTM G139 – Determination of Stress-Corrosion Cracking Resistance of Heat-Treatable Aluminum Alloy Products Using Breaking Load Method
Tensile Testing
- ASTM C297 – Flatwise Tensile Strength of Sandwich Constructions
- ASTM C565 – Tension Testing of Carbon and Graphite Mechanical Materials
- ASTM C1147 – Short Term Tensile Weld Strength of Chemical-Resistant Thermoplastics
- ASTM C1275 – Tensile Testing of Continuous Fiber-Reinforced Advanced Ceramics (CFCC’s)
- ASTM C1359 – Monotonic Tensile Strength Testing of Fiber-Reinforced Advanced Ceramics
- ASTM C1468 – Transthickness Tensile Strength of Continuous Fiber-Reinforced Advanced Ceramics at Ambient Temperature
- ASTM D638 – Tensile Testing of Plastics
- ASTM D882 – Tensile Testing of Thin Plastic Sheeting
- ASTM D885 – Tensile Properties of Tire Cords, Tire Cord Fabrics, and Industrial Filament Yarns
- ASTM D3039 – Tensile Testing of Polymer Matrix Composites
- ASTM D3822 – – Tensile Properties of Single Textile Fibers
- ASTM D3916 – Tensile Testing of Glass-Fiber-Reinforced Plastic Rods
- ASTM D4533 – Trapezoid Tearing Strength of Geotextiles
- ASTM D4632 – Grab Breaking Load and Elongation of Geotextiles
- ASTM D5179 – Tensile Testing of Organic Coatings to Plastic Substrates
- ASTM E8 – Tensile Testing of Metals
- ASTM E21 – Tensile Testing of Metals at Elevated Temperatures (up to 2500 °F)
- ASTM E238 – Pin Bearing Test of Metallics
- ASTM E338 – Sharp Notch Tension Testing of High Strength Sheet Materials
- ASTM E345 – Tension Testing of Metallic Foil
- ASTM E517 – Plastic Strain Ratio “r” for Sheet Metal
- ASTM E646 – Tensile Strain-Hardening Exponents (n-Values) of Metallic Sheet Metals
- ISO 527-1 – Tensile Properties of Plastics
- ISO 527-3 – Tensile Properties of Plastic Films and Sheets
- ISO 6892-1 – Tensile Testing Metallic Materials at Room Temperature
- ISO 6892-2 – Tensile Testing Metallic Materials at Elevated Temperature
- True Stress / True Strain
Thermal Expansion Testing
- ASTM E228 – Linear Thermal Expansion of Solid Materials with a Push-Rod Dilatometer

True Stress / True Strain

To request a quotation for any test email info@trl.com for a prompt reply

Whereas engineering stress is based on the original dimensions of a specimen, the true stress is based on an instantaneous measurement of the cross-sectional area. True stress-true strain curves are often called flow curves, which represent plastic flow of the material. The flow curve is often used to determine two parameters characteristic of the material, the strain hardening exponent and the coefficient of the strength of the material. These values often need to be determined for any type of cold formation of the material.

For ductile metals in tension, the material becomes unstable and begins to neck after a particular load is applied. The engineering stress-strain curve will indicate that less stress is needed to further deform the material, when in actuality, the necked area requires more stress for further deformation. This increase in stress is known as strain hardening. The true stress of a material far exceeds the engineering stress and continues to increase until the point of failure.

Please email info@trl.com or call (304) 547-5800 for information regarding test procedures, results, specimen information, pricing or any other True Stress / True Strain questions you may have.

MECHANICAL TESTING LABORATORY INDEX