Click the tabs to view listings of 秀色直播standards by category.
TM = Test Method, LP = Laboratory Procedure, EP =聽 Evaluation Procedure, M = Monograph
Test Method Number | Test Method Name |
Colorfastness to Acids and Alkalis | |
Colorfastness to Crocking: Crockmeter | |
Colorfastness to Perspiration | |
Colorfastness to Light: Outdoor | |
Colorfastness to Light: Carbon-Arc | |
Colorfastness to Light: Xenon-Arc | |
Wetting Agents, Evaluation of | |
Fiber Analysis: Qualitative | |
Fiber Analysis: Quantitative | |
Water Repellency: Spray | |
Colorfastness to Burnt Gas Fumes | |
Ageing of Sulfur-Dyed Textiles: Accelerated | |
Wetting Agents: Evaluation of Rewetting Agents | |
Antifungal Activity, Assessment on Textile Materials: Mildew and Rot Resistance of Textile Materials | |
Water Resistance: Rain | |
Water Resistance: Impact Penetration | |
Wetting Agents for Mercerization | |
Colorfastness to Laundering: Accelerated | |
Wrinkle Recovery of Woven Fabrics: Recovery Angle | |
Water Repellency-Tumble Jar Dynamic Absorption | |
Electrical Surface Resistivity of Fabrics | |
Absorbency of Textiles | |
pH of the Water-Extract from Wet Processed Textiles | |
Fluidity of Dispersions of Cellulose from Bleached Cotton Cloth | |
Electrical Resistance of Yarns | |
Drycleaning: Durability of Applied Designs and Finishes | |
Seam Smoothness in Fabrics after Home Laundering | |
Crease Retention in Fabrics after Home Laundering | |
Mercerization in Cotton | |
Antimicrobial Activity Assessment of Textile Materials: Agar Plate | |
Chlorine, Retained, Tensile Loss: Single Sample | |
Abrasion Resistance of Fabrics: Accelerotor | |
Finishes in Textiles: Identification | |
Extractable Content of Textiles | |
Alkali in Bleach Baths Containing Hydrogen Peroxide | |
Antibacterial Finishes on Textile Materials: Assessment of | |
Colorfastness to Bleaching with Hydrogen Peroxide | |
Determination of Hydrogen Peroxide by Potassium Permanganate Titration | |
Bacterial Alpha-Amylase Enzymes used in Desizing | |
Colorfastness to Water Spotting | |
Colorfastness to Water: Sea | |
Colorfastness to Water | |
Colorfastness to Ozone in the Atmosphere Under Low Humidities | |
Whiteness of Textiles | |
Weather Resistance of Textiles: Exposure to Daylight and Weather | |
Formaldehyde Release from Fabric: Sealed Jar | |
Chlorine, Retained, Tensile Loss: Multiple Sample | |
Electrostatic Clinging of Fabrics: Fabric-to-Metal | |
Colorfastness to Crocking: Rotary Vertical Crockmeter | |
Colorfastness to Heat: Dry (Excluding Pressing) | |
Oil Repellency: Hydrocarbon Resistance | |
Colorfastness to Flat Abrasion (Frosting): Screen Wire | |
Color Change Due to Flat Abrasion (Frosting): Emery | |
Carpet Soiling: Visual Rating | |
Smoothness Appearance of Fabrics after Home Laundering | |
Colorfastness to Perspiration and Light | |
Water Resistance: Hydrostatic Pressure | |
Wrinkle Recovery of Fabrics: Appearance | |
Colorfastness to Ozone in the Atmosphere Under High Humidities | |
Soil Release: Oily Stain Release | |
Colorfastness to Steam Pleating | |
Colorfastness to Drycleaning | |
Colorfastness to Heat: Hot Pressing | |
Electrostatic Propensity of Carpets | |
Dimensional Changes of Fabrics after Home Laundering | |
Rug Back Staining on Vinyl Tile | |
Cleaning: Washing of Textile Floor Coverings | |
Dye and Pigment Migration in a Pad-Dry Process | |
Compatibility of Basic Dyes for Acrylic Fibers | |
Appearance of Apparel and Other Textile End Products After Home Laundering | |
Alkali in Wet Processed Textiles: Total | |
Dispersibility of Disperse Dyes: Filter | |
Antibacterial Activity of Textile Materials: Parallel Streak | |
Light Blocking Effect of Textiles and Related Materials: Photodetector | |
Chelation Value of Aminopolycarboxylic Acids and Their Salts: Calcium Oxalate | |
Dimensional Changes of Garments after Home Laundering | |
Thermal Fixation Properties of Disperse Dyes | |
Colorfastness to Solvent Spotting: Perchloroethylene | |
Dimensional Changes on Drycleaning in Perchloroethylene: Machine | |
Transfer of Acid and Premetallized Acid Dyes on Nylon | |
Color Change of Disperse Dyes Caused by Metals, with and without Chelating Agent | |
Colorfastness to Water: Chlorinated Pool | |
Colorfastness to Storage: Dye Transfer | |
Colorfastness to Oxides of Nitrogen in the Atmosphere Under High Humidities | |
Colorfastness to Crocking: Textile Floor Coverings-Crockmeter | |
Foaming Propensity of Disperse Dyes | |
Chelation Value of Polyaminopolycarboxylic Acids and Their Salts: Copper PAN | |
Weather Resistance of Textiles: Xenon Lamp Exposure | |
Dusting Propensity of Powder Dyes | |
Carpets: Cleaning of, Hot Water Extraction | |
Colorfastness to Powdered Non-Chlorine Bleach in Home Laundering | |
Antimicrobial Activity Assessment of New Carpets | |
Stain Resistance: Pile Floor Coverings | |
Speckiness of Colorant Dispersions | |
Skew Change in Fabrics After Home Laundering | |
Relative Color Strength of Dyes in Solution | |
Transmittance or Blocking of Erythemally Weighted Ultraviolet Radiation through Fabrics | |
Dusting Behavior of Dyes | |
Chelating Agents: Percent Content in Hydrogen Peroxide Bleach Baths; Copper PAN Indicator | |
Weather Resistance: UV Light and Moisture Exposure | |
Dimensional Changes of Fabrics: Accelerated | |
Colorfastness to Sodium Hypchlorite Bleach in Home Laundering | |
Flourine Content of Carpet Fibers | |
Acid Cellulase Enzymes, Effect of: Top Loading Washer | |
Weather Resistance of Textiles: Sunshine-Arc Lamp Exposure with and without Wetting | |
Aqueous Liquid Repellency: Water/Alcohol Solution Resistance | |
Anti-House Dust Mite Properties of Textiles under Long-Term Test Conditions | |
Liquid Moisture Management Properties of Textile Fabrics | |
Colorfastness to Sodium Hypochlorite of a Textile Floor Covering | |
Vertical Wicking Rate of Textiles: to Specified Distances | |
Horizontal Wicking of Textiles | |
Drying Time of Textiles: Moisture Analyzer | |
Drying Rate of Textiles at their Absorbent Capacity: Air Flow | |
Drying Rate of Fabrics: Heated Plate | |
Relative Hand Value of Textiles: Instrumental | |
Light Blocking Effect of Textiles: Spectrophotometric | |
Water Vapor Transmission of Textiles | |
Carpet: Liquid Penetration by Spillage | |
Free and Hydrolyzed Formaldehyde:聽Water Extraction | |
Seam Twist in Garments Before and After Home Laundering | |
Water Resistance: Hydrostatic Pressure Using a Restraint | |
pH and Total Alkali in Wet Processed Textiles: Combined | |
Electrical Resistance Before & After Various Exposure Conditions | |
Reduction of Bacterial Odor on Antibacterial-Treated Textiles | |
Fiber Fragment Release During Home Laundering | |
Vertical Wicking Rate of Textiles: to Specified Times | |
Measuring Condensation on Textiles in a Humid Microclimate | |
Soil Release: Household Soils | |
秀色直播TM216 | Measuring The Odor Adsorbency of Textile Materials Using a Representative Malodor of Human Origin |
秀色直播standards have long been considered 鈥渋nternational鈥 because they are developed, specified, and performed around the world. In 2000, the Technical Barriers to Trade Committee (TBT) of the World Trade Organization (WTO) identified six principles for development of international standards. 秀色直播standards and its standards development process adhere to these principles.
1. Transparency
2. Openness
3.聽Impartiality and Consensus
4.聽Effectiveness and Relevance
5. Coherence
6. Development Dimension
Part of Transparency and Openness is ensuring that all interested parties have access to active projects and opportunities to contribute. To this end, 秀色直播publishes a list of active projects at least twice per year, following Spring and Fall committee meetings. To participate in a project, contact 秀色直播Technical Director Erika Simmons or the Project Leader.
Committee Meetings Highlights聽
Revisions
Be sure to use and reference only the most current versions of 秀色直播methods and procedures. During the first three years, each new standard is reviewed annually, at which time, on recommendation of the research committee and approval by TCR, it may be reaffirmed, revised, or withdrawn. After the first three years, each standard is reviewed at least every five years. The historical record of these actions is published at the beginning or end of each method. Click the links on previous tabs to view designation, title and scope of current standards. You can order and download from the same pages.
Click the links below to see lists of recent changes.
2025 Manual of International Test Methods and Procedures Changes
2024 Manual of International Test Methods and Procedures Changes
2023 Manual of International Test Methods and Procedures Changes
Letters indicate the type of standard: TM = Test Method, LP = Laboratory Procedure, EP =聽 Evaluation Procedure, M = Monograph. Each 秀色直播standard is designated by a number followed by the year of last technical revision. The last subsequent reaffirmation may appear in parentheses. A small letter 鈥渆鈥 indicates editorial changes, and a small letter 鈥渢鈥 indicates additional technical changes in the same year.
Click here聽for a full explanation of standard designations.
and scroll to the Test Method Updates section to see the list of all changes in the most recent Technical Manual. (秀色直播members only)
Development Process
Before a standard is published in the , it must be approved by the responsible research committee and the Technical Committee on Research (TCR).
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