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Title Description
Taber abrasion wheel method - Abrasion resistance Abrasion by Taber abraser
Taiwan VSTD 19-1 (191) - horizontal test - Burning behaviour Vehicle safety tests - flammability of interior materials for motor vehicles
TD_G_CB_SOP_5.4_111_G_0 (GC-MS) - Determination of phthalates Determination of phthalates in solids with GC-MS
TD_G_CB_SOP_5.4_113_G_0 - Determination of amines Amines: Determination of organic substances by HPLC
TD_G_SUP_SOP_5.4_145_1_G_0 - Selected UV-stabilisators House method - Determination of stabilisators
Tearing force/ pulling force of bolts - Tensile test based on DIN EN ISO 527-4 Plastics - Determination of tensile properties - Part 4: Test conditions for isotropic and orthotropic fibre-reinforced plastic composites - Determination of the tearing force and pulling force of bolts
TEGEWA drop test Textile fabrics: Determination of the absorbency
Temperature cycling test Temperature cycling test (e.g. acc. to DBL 9202)
Temperature shock resistance Temperature shock resistance
Tensile Properties General method for tests on the Tensile Properties
Tesla Motors TM-0032F-P-INT - Interior Paint Performance for both tactilely soft and hard coating systems for interior applications
Tesla Motors TP-0000702 - Scratch test Scratch Behavior of Polymeric Materials
Tesla Motors TP-0000703, Method A - Crocking Test Chemical Resistance of Surfaces, Method A - Crocking Test
Tesla Motors TP-0000703, Method B - Spot Test Chemical Resistance of Surfaces, Method B - Spot Test
Tesla TM-5010: Paint, Interior, Polymeric Substrates Paint systems for application to molded parts in teh vehicle interior
Tesla TP-0000701: Lightfastness of Materials to Artificial Weathering Determination of the optical and functional deterioration of the materials in the vehicle interior and exterior, by UV radiation.
Tesla TP-0000706 - Module 1 - Warm climate cycle test Climatic aging of materials, components and assemblies - Module 1
Tesla TP-0000706 - Module 2 - heat storage Climatic aging of materials, components and assemblies - Module 2
Tests for harmful substances Textiles
Thermal cycle with corrosion test Thermal cycle with corrosion test
Thermography Thermography - e.g. seats with seat heater
Thermogravimetry (TGA) / DIN EN ISO 11358 - Thermogravimetrical analysis (TGA) Plastics - Thermogravimetry (TGA) of polymers - General principles
Thickness measurement Thickness measurement of several matrices with caliper, thickness gauge or outside micrometer
Tight fit of mounting equipment General method - for determination the strength of mounting equipment (e.g. BMW PR 326.5 § 2.1.4.2)
TJLR.52.161 - Resistance to acid spotting Jaguar cars & Land Rover: Resistance to acid spotting
TL 52223: Adhesive Tape, Adhesive Bonding on Both Sides or Heat-Activatable for Thermoplastic Elastomers and Elastomer Profile material requirements for adhesive tapes used to mount elastomer profiles, such as EPDM, CR, or TPE, onto painted body surfaces
TL 52443 - PP-Tufting with heavy-duty Backing - Material requirements
TM 154100 -Engineering Material Specification Nonwoven for unvisible parts (e.g. Seat)
Tolerance measurement Tolerance measurement
Toyota Boshoku BSDL2106 (Xenon lamp) - Colorfastness to light Standard test methods for seat fabrics with regard to items concerning the natural environment - Xenon Lamp (methods B, E)
Toyota Boshoku BSDL5100 § 4.19.2 - Color fastness to light (xenon lamp) General test methods for artificial leather - § 4.19.2 Method B: Xenon Lamp
Toyota Boshoku Technical Standard BSDA1250: Test method regarding material properties for head restraints
Toyota Boshoku Technical Standard BSDM5514: Polypropylene resin molding materials
Toyota BSDM 0500 - Burning behaviour Flammability test method for interior non-metallic materials
Toyota BSDM 0503 - B (gravimetric) - Fogging test Fogging test method for non-metallic materials - Method B (gravimetrical)
Toyota BSDM 0503 - B (reflectrometric) - Fogging test Fogging test method for non-metallic materials - Method B ( reflectrometrical)
Toyota BSDM 0505 § 9.1.1 - Odor test (without water, initial smell) Smell quality of non-metallic materials; § 9.1.1: without water, initial smell
Toyota BSDM 0505 § 9.1.2 - Odor test (without water, after ageing 96 h / 80 °C) Smell quality of non-metallic materials, § 9.1.2: without water, after ageing 96 h / 80 °C
Toyota BSDM 0505 § 9.2.1 - Odor test (with water, initial smell) Smell quality of non-metallic materials, § 9.2.1: with water, initial smell
Toyota BSDM 0505 § 9.2.2 - Odor test (with water, after ageing 96 h / 80 °C) Smell quality of non-metallic materials § 9.2.2: with water, after ageing 96 h / 80°C
Toyota BSDM 0505 § 9.3 Water extraction - Odor test (water extraction) Smell quality of non-metallic materials § 9.3 smell water extraction test for single parts
Toyota Engineering Standard TSL 1600 G: Polyester threads for seat sewing
Toyota PPS 5004 - Rigidity test Textile flex resistance - carpeted floor mats rigidity test
Toyota TSF 0902G: Test methods for the nonmetal material properties of rear-body products and their quality requirements Nonmetalic rear-body interior and exterior products
Toyota TSF0904G: Test method and quality requirements regarding the properties of nonmetallic parts installed around side members
Toyota TSF6250G: Test method regarding material properties for head restraints Head restraint (class 1 and class 2)
Toyota TSF7250G: Test methods regarding material properties for sun visors
Toyota TSH 1501 G § 2.1 Method A - Print resistance of paint film (Gauze print method) Test method for print resistance of paint film; § 2.1: Method A (Gauze print method)
Toyota TSH 1503 G § 2.1 - Cross-cut test Test method for adhesive property of paint film; § 2.1: Crosscut method
Toyota TSH 1503 G § 2.2 - X-cut test Test method for adhesive property of paint film; § 2.1: X-cut method
Toyota TSH 1504 G § 2.2.1 - Bending test, Manual method Test method for flexibility of paint film; § 2.2.1: Bending test, Manual method
Toyota TSH 1519 G § 3 - Gloss measurement Test method for gloss of paint film; § 3: Specular Gloss (Reflectometer)
Toyota TSH 1539 G § 2.1 - Pencil scratch hardness Test method for hardness of paint film; § 2.1: Pencil scratch hardness
Toyota TSH 1555 G - Corrosion test Test method for accelerated corrosion under complex environment
Toyota TSH 1564 G - Method B (reflectometric procedure) - Fogging Characteristics Fogging test method for interior painted parts - Method B, reflectometric procedure
Toyota TSH 1564 G -Methode B gravimetric measurement - Fogging Characteristics Fogging test method for interior painted parts - Method B, gravimetric procedure
Toyota TSH 3130 G § 4.17 (1) - Light fastness (Carbon arc method) Paint quality for interior parts - Accelerated ligth resistance - (1) Carbon arc method
Toyota TSH 3130 G: Paint Quality For Interior Parts For decorative coatings and prints on automotive interior parts
Toyota TSH 3130 G: Paint Quality For Interior Parts For decorative coatings and prints on automotive interior parts
Toyota TSK 5705 G: Pressure sensitive adhesive double coated tape for exterior parts For bonding exterior parts (for example, side protection molding, bumper molding, marks, etc.)
Toyota TSK 5705 G: Pressure sensitive adhesive double coated tape for exterior parts
Toyota TSK6712G: Sealing foams for interior trims Foam sealing material (hereinafter called "foam") chiefly used to seal interior duct-related parts of automobiles
Toyota TSL 0601 G (Carbon arc) - Light resistance Criteria for test for quality of color change by aging (method A)
Toyota TSL 0601 G (Xenon arc) - Light resistance Criteria for test for quality of color change by aging (methods B - G)
Toyota TSL 0601 G - Light resistance (method E) Criteria for test for quality of color change by aging, method E
Toyota TSL 1600 G § 4.1 - Determination of linear density (conditioned size) Specification for polyester threads for seat sewing; § 4.1: Conditioned size (Yarn count)
Toyota TSL 1600 G § 4.2 - Tensile properties Specification for polyester threads for seat sewing; § 4.2: Tensile strength and elongation
Toyota TSL 1600 G § 4.2 - Tensile properties yarn Specification for polyester threads for seat sewing § 4.2 Tensile strength and elongation
Toyota TSL 1600 G § 4.3.1 (Method A) - Color fastness to light Specification for polyester threads for seat sewing § 4.3.1 Test on colorfastness to light Method A Xenon Lamp
Toyota TSL 1600 G § 4.3.1 - Color fastness and ageing Specification for polyester threads for seat sewing; § 4.3.1: Color fastness and ageing
Toyota TSL 1600 G § 4.4 (Method B) - Colour fastness to crocking Specification for polyester threads for seat sewing; § 4.4: Color fastness to crocking (method B), dry and with perspiration solution
Toyota TSL 1600 G § 4.5 - Loop strength test Specification for polyester threads for seat sewing; § 4.5: Loop strength test
Toyota TSL 1600 G § 4.6 - Stretch elasticity test Specification for polyester threads for seat sewing; § 4.6: Stretch elasticity test
Toyota TSL 1600 G: Specification for polyester threads for seat sewing Polyester threads for seat sewing
Toyota TSL 2100 G § 4.18 - Taber Abrasion (Wear resistance) Standard test methods for woven fabrics and knitted fabrics; § 4.18: Taber Abrasion
Toyota TSL 2106 G § 4.8.2 (Method B) - Colour fastness to light Standard test methods for seat fabrics; § 4.8.2: Colorfastness to light at high temperature - Method B: Xenon Lamp (Atlas Ci35W or equivalent)
Toyota TSL 3600 G § 7.13.2 (Method B) - Colour fastness to dry crocking Test methods for carpet materials for automobiles; § 7.13.2: Color fastness to dry crocking (method B)
Toyota TSL 3600 G § 7.2 - Thickness Test methods for carpet materials for automobiles; § 7.2: Thickness
Toyota TSL 3600 G § 7.3 - Grab tensile properties Test methods for carpet materials for automobiles; § 7.3: Tensile strength - Determination of maximum force using the grab method
Toyota TSL 3600 G § 7.4 - Tear strength Test methods for carpet materials for automobiles; § 7.4: Tear strength - by the Tongue (single rip) procedure
Toyota TSL 3600 G: Carpet Materials Carpet
Toyota TSL 3610G: Molded head lining cover materials Automotive molded head lining cover materials except TPO cover materials
Toyota TSL 5100 G § 4.10 - Tack free test General test methods for vinyl leathers; § 4.10: Tack free test
Toyota TSL 5100 G § 4.19.2 (Method B: Xenon Lamp) - Light fastness High-temperature light fastness test
Toyota TSL 5100 G: General test methods for vinyl leathers Test methods for vinyl leathers used mainly for automobile interior trim materials.
Toyota TSL 5101 G § 3.7 - Seam fatigue test § 3.7: Seam fatigue test
Toyota TSL3509G: Low elastic felt materials for silencer Silencer pad materials used as sound insulating material for automotive lining
Toyota TSL5101G & 3.29 - Crease-Flex Resistance Crease-Flex Resistance Test
Toyota TSM 0500 G - Burning behaviour Flammability test method for interior non-metallic materials
Toyota TSM 0501 G § 9.10 - Melt mass-flow rate (MFR) Standard test methods for plastic molding materials § 9.10 Melt index measurement test
Toyota TSM 0501 G § 9.20 - Accelerated weather resistance test Standard test methods for plastic molding materials; § 9.20: Accelerated weather resistance test (light resistance)
Toyota TSM 0501 G § 9.22 - Paint film adhesion (cross cut test) Standard test methods for plastic molding materials § 9.22 Paint film adhesion measurement test
Toyota TSM 0501 G § 9.23 - Adhesive strength (electro-plated surface) Standard test methods for plastic molding materials § 9.23 Electro-plated surface adhesion strength measurement test
Toyota TSM 0501 G § 9.4.1 - Determination of Izod impact resistance (notched) Standard test methods for plastic molding materials § 9.4.1 Izod impact test (notched)
Toyota TSM 0501 G § 9.4.1 - Determination of Izod impact resistance (notchless) Standard test methods for plastic molding materials § 9.4.1 Izod impact test (notchless)
Toyota TSM 0501 G § 9.4.2 - Determination of Charpy impact resistance (notched) Standard test methods for plastic molding materials § 9.4.2 Charpy impact test (notched)
Toyota TSM 0501 G § 9.4.2 - Determination of Charpy impact resistance (notchless) Standard test methods for plastic molding materials § 9.4.2 Charpy impact test (notchless)
Toyota TSM 0501 G § 9.8 - Vicat softening temperature Standard test methods for plastic molding materials § 9.8 Vicat softening point measurement test
Toyota TSM 0501 G § 9.9.2 (Shore A) - Determination of Shore A hardness Standard test methods for plastic molding materials § 9.9.2 Shore A hardness measurement
Toyota TSM 0501 G § 9.9.2 (Shore D) - Determination of Shore D hardness Standard test methods for plastic molding materials § 9.9.2 Shore D hardness measurement
Toyota TSM 0501G: Standard test methods for plastic molding materials
Toyota TSM 0502G § 4.1.1 (B) - Heat storage with infrared radiation General test method regarding material properties for plastic parts, § 4.1.1 Method B
Toyota TSM 0502G: General test method regarding material properties for plastic parts For plastic molded parts to be used in automobiles.
Toyota TSM 0502G: General test method regarding material properties for plastic parts For plastic molded parts to be used in automobiles.
Toyota TSM 0503 G - B (gravimetric) - Fogging test Fogging test method for non-metallic materials; § 3.2.2b: Fogging G (method B, gravimetrical)
Toyota TSM 0503 G - B (gravimetric) - Fogging test Fogging test method for non-metallic materials - Method B (gravimetric)
Toyota TSM 0503 G - B (reflectometric) - Fogging test Fogging test method for non-metallic materials; § 3.2.2a: Fogging F (method B, reflectometric)
Toyota TSM 0503 G - B (reflectometric) - Fogging test Fogging test method for non-metallic materials - Method B (reflectometric)
Toyota TSM 0505 G § 8.1.1 - Odor test (without water, initial smell) Smell quality of non-metallic materials; § 8.1.1: without water, initial smell
Toyota TSM 0505 G § 8.1.2 - Odor test (without water, after ageing 96 h / 80 °C) Smell quality of non-metallic materials; § 8.1.2: without water, after ageing 96 h / 80 °C
Toyota TSM 0505 G § 8.2.1 - Odor test (with water, initial smell) Smell quality of non-metallic materials; § 8.2.1: with water, initial smell
Toyota TSM 0505 G § 8.2.2 - Odor test (with water, after ageing 96 h / 80 °C) Smell quality of non-metallic materials; § 8.2.2: with water, after ageing 96 h / 80 °C
Toyota TSM 0505 G § 8.3 Water extraction - Odour test Toyota, Smell quality of non-metallic materials Point 8.3 smell water extraction test for single parts
Toyota TSM 0506G - Determination of temperature of deflection under load Standard test methods for plastic molding materials for compliance with iso
Toyota TSM 0506G § 3.3 (Charpy impact) - Determination of Charpy impact properties at low temperatures Standard Test Methods for Plastic Molding Materials for Compliance with ISO
Toyota TSM 0508 G - Determination of volatile components Volatile component measurement method using sampling bag, Emissions
Toyota TSM 0509 G - Analysis of emissions of volatile substances by heat extraction and gaschromatography Test method for measuring volatile substances under heat desorption method (based on VDA 278)
Toyota TSM 5515 G: Polyacetal resin molding materials (POM) General properties of polyacetal resin molding materials used for automotive plastic parts. (POM)
Toyota TSM 5601 G: Composite reinforced polypropylene moulding materials
Toyota TSM 5708G: Elastomer Modified Polypropylene Resin Molding Materials For Exterior Parts General properties of elastomer modified polypropylene resin molding materials used for automotive plastic bumpers.
Toyota TSM 5746G: Thermoplastic elastomer materials of moldings for exterior use Thermoplastic elastomer materials of moldings for exterior use
Toyota TSM 6734G: Safety pad materials with thermoplastic polyurethane (TPU) cover for slush molding covering materials, pad materials (compound) and PUR foam materials of the safety pad for instrument panels which is made by injecting and foaming PUR in the thermoplastic PUR cover for slush molding (hereinafter referred to as "safety pad")
Toyota TSM 7100G § 4.2.1 - Hardness (at default indentation distance) Testingcellular material; hardness test on polyurethan foam; (Indentation force at default indentation distance)
Toyota TSM 7100G § 4.3 - Compression load test Testing of cellular material; Compression load test on polyurethane foam; (Veränderung der Elastizität nach mehrmaliger Belastung)
Toyota TSM 7100G § 4.4 - Stress relaxation test Test foams; Spannungsrelaxationstest of polyurethane foams
Toyota TSM0501G § 9.2 - Tensile Test Standard test methods for plastic molding materials - § 9.2 Tensile Test
Toyota TSM0501G § 9.3 - Bending Test Standard test methods for plastic molding materials - § 9.3 Bending Test (Three-point Bending Test)
Toyota TSM1500 G: Rubber materials
Toyota TSM1720G: Materials for door glass run
Toyota TSM5514G: Polypropylene resin molding materials
Toyota TSM6634G § 5.7.1 and § 5.7.2 - Colorfastness to crocking Colorfastness to crocking (dry/wet) by using the Gakushin-type friction tester
Toyota TSM7100G: General tets method for polyurethane foams polyurethane foams used mainly for automotive seat pads and safety pads
Toyota TSM7516G: Materials for the label transferred by heat press Materials for labels which are adhered to the surfaces of sun visor skin (fabric, PVC, flocking) and vanity mirror cover (polypropylene resin) by means of heat transfer.
TPJLR 52.252 - Salt spray test Resistance To Neutral Salt Spray Corrosion Testing
TPJLR 52.360 - Climate cycle test Accelerated Environmental Ageing for Adhesives Used in Trim Applications
TPJLR 52.554 - Corrosion Test Prohesion Corrosion Test
TPJLR 52.564 - Water immersion test Water Immersion Test For Painted Parts And Panels
TPJLR.52.001 - Abrasion Resistance Jaguar Cars & Land Rover: Abrasion Resistance of Textile Fabrics
TPJLR.52.004 - Resistance to Scratch Jaguar Cars & Land Rover: Resistance to scratch
TPJLR.52.056 - Foam adhesion to Flexible & Rigid Substrates (Scraper Method) Jaguar Cars & Land Rover: Determination of foam adhesion to flexible & rigid substrates (Scraper Method)
TPJLR.52.058 (Procedure 2) - Adhesive Bond Strength (180 °) Jaguar Cars & Land Rover: Adhesive bond strength - Procedure 2: 180 degree peel method
TPJLR.52.061 - Paint Adhesion Jaguar Cars & Land Rover: Paint adhesion test method
TPJLR.52.104 - Determination of volatile organic compounds (VOC emissions) Determination of VOC (and Carbonyl) Emissions for Interior Trim Materials
TPJLR.52.107 - Determination of VOC's from interior components Jaguar Cars & Land Rover: Determination of VOC's from interior components and systems using a 1 m_ emission chamber
TPJLR.52.154 - Resistance to fuel Jaguar Cars & Land Rover: Determination of plastic component resistance to fuel
TPJLR.52.155 - Fluid Spotting Jaguar Cars & Land Rover: Fluid spotting of automotive trim
TPJLR.52.156 - Resistance to Perspiration Jaguar Cars & Land Rover: Resistance of interior trim to perspiration - Immersion test
TPJLR.52.156 - Resistance to Perspiration Jaguar Cars & Land Rover: Resistance of interior trim to perspiration - Immersion test
TPJLR.52.160 - Resistance to Exterior Transit Protection Materials Jaguar Cars & Land Rover: Resistance to exterior transit protection materials
TPJLR.52.201 - Soiling and Cleanability Jaguar Cars & Land Rover: Soiling and Cleanability of Trim Materials
TPJLR.52.202 - Soiling and cleanability Jaguar Cars & Land Rover: Susceptibility of trim material to dye ingress
TPJLR.52.202 - Soiling and cleanability Jaguar Cars & Land Rover: Susceptibility of trim material to dye ingress
TPJLR.52.203 - Resistance to white marking Jaguar Cars & Land Rover: Resistance to white marking (45 ° bending)
TPJLR.52.205, Method A - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method A (polymer foils, PVC and leather)
TPJLR.52.205, Method A - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method A (polymer foils, PVC and leather)
TPJLR.52.205, Method B - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method B (polyurethane foam)
TPJLR.52.205, Method B - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method B (polyurethane foam)
TPJLR.52.205, Method C - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method C (seat foams)
TPJLR.52.205, Method D - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method D
TPJLR.52.205, Methode C - Susceptibility to Amine Staining Jaguar Cars & Land Rover: Susceptibility of trim material to amine staining, method C (composite material)
TPJLR.52.207 - Resistance to Migration Staining Jaguar Cars & Land Rover: Resistance to migration staining using multi fibre cloth
TPJLR.52.209 - Resistance to Migration Staining Jaguar Cars & Land Rover: Resistance to migration staining using white, unsupported vinyl
TPJLR.52.210 - Cleanability Test Jaguar Cars & Land Rover: Cleanability test for interior trim materials
TPJLR.52.211 - Soiling behavior of seating leather Susceptibility of leather to soiling
TPJLR.52.212 - Resistance to suntan lotion Resistance to sun cream staining
TPJLR.52.301 - Dimensional stability under dry heat Jaguar Cars & Land Rover: Dimensional stability under humidity and dry heat, Index J and K: Procedure for dry heat
TPJLR.52.301 - Dimensional stability under humidity Jaguar Cars & Land Rover: Dimensional stability under humidity and dry heat, Index I: Procedure for humidity
TPJLR.52.302 - Determination of elongation and tension set Jaguar Cars & Land Rover: Determination of elongation and tension set
TPJLR.52.351 - Resistance to humidity Jaguar Cars & Land Rover: Resistance to humidity
TPJLR.52.351 - Resistance to humidity Jaguar Cars & Land Rover: Resistance to humidity
TPJLR.52.352 - Resistance to heat ageing Jaguar Cars & Land Rover: Resistance to heat ageing
TPJLR.52.353 - Accelerated Environmental Ageing Jaguar Cars & Land Rover: Accelerated environmental cycling
TPJLR.52.356 - High Heat & Humidity Ageing (climate cycle) Jaguar Cars & Land Rover: High heat & humidity ageing (climate cycle)
TPJLR.52.414 - Seam Fatigue Jaguar Cars & Land Rover: Seam fatigue of interior trim
TPJLR.52.417 - Seam strength Determination of seam strength of textile trim materials
TPJLR.52.419 - Load deflection and load loss Jaguar Cars & Land Rover: Load deflection and load loss of foam covered trim components
TPJLR.52.423 - Determination of Surface Fibre deterioration after Ultraviolet Radiation Jaguar Cars & Land Rover: Determination of surface fibre deterioration (after ultraviolet radiation)
TPJLR.52.452 - Resistance to Curling Jaguar Cars & Land Rover: Resistance to curling
TPJLR.52.453 - Determination of white cracking and creasing Polymeric film resistance to white cracking and creasing
TPJLR.52.458 - Odour test Jaguar Cars & Land Rover: Determination and assessment of odour from interior trim materials, components and assemblies
TPJLR.52.561 Method A - Resistance to high pressure cleaning operations Jaguar Cars & Land Rover: Resistance of painted exterior parts to high pressure cleaning operations
TPJLR.52.709, Method A - Ball drop test (method A: rubber ball) Jaguar Cars & Land Rover: Resistance to low temperature impact, method A (Rubber ball)
TPJLR.52.709, Methode B - Ball drop test (method B: steel ball) Jaguar Cars & Land Rover: Resistance to low temperature impact, method B (Steel ball)
TPJLR.52.712 - Resistance to Blocking Resistance to Blocking
TPJLR.52.714 - Moisture Absorption Jaguar Cars & Land Rover: Moisture Absorption
Traction-Adhesive Strength Test
TRIAS 20-J027-01 - Burning test Test for Flame-Resistance Interior Materials
TSKF TS420-0-02 - Burning behavior Flammability test method
TSKF TS420-0-32 Method A - Fogging test (reflectometric) Test method & Quality standard for the fogging property
TSKF TS420-00-033 - Determination of VOC's from interior components The VOC emission test method