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ASTM D629-15

Standard Test Methods for Quantitative Analysis of Textiles (Withdrawn 2024)

Automaticky preložený názov:

Štandardné testovacie metódy pre kvantitatívnu analýzu textílií

NORMA vydaná dňa 1.2.2015

Jazyk
Prevedenie	Elektronické PDF - 101.30 € Tlačené - 101.30 €
Dostupnosť	SKLADOM
Cena	101.30 € bez DPH
101.30 €

Informácie o norme:

Označenie normy: ASTM D629-15
Poznámka: NEPLATNÁ
Dátum vydania normy: 1.2.2015
Kód tovaru: NS-585744
Počet strán: 21
Približná hmotnosť: 63 g (0.14 libier)
Krajina: Americká technická norma
Kategória: Technické normy ASTM

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Kategórie - podobné normy:

Textilie všeobecně

Anotácia textu normy ASTM D629-15 :

Keywords:
animal fibers (except wool), bast, leaf, and fruit fibers, chemical properties (textiles), cotton, extractable matter, man-made fibers, analysis, moisture content, moisture regain, microscopical analysis, quantitative analysis, silk, textile fibers, wool,, ICS Number Code 59.080.01 (Textiles in general)

Doplňujúce informácie

Significance and Use

5.1 Qualitative and quantitative fiber identification is actively pursued by committee RA24 (Fiber Identification) of AATCC and presented in AATCC Test Methods 20 and 20A. Since precision and bias development is also part of the AATCC test methods, both AATCC and ASTM D13 have agreed that new development will take place in RA24. However, because there is valuable information still present in the ASTM standards, D13.51 has agreed Test MethodsD276 and D629 will be maintained as active standards by ASTM.

5.2 Test Methods D629 for the determination of quantitative analysis of textiles may be used for acceptance testing of commercial shipments but caution is advised since information on between-laboratory precision is lacking. Comparative tests as directed in 5.2.1 or in Standard Tables D1909 may be advisable.

5.2.1 In case of a dispute arising from differences in reported test results using Test Methods D629 for acceptance testing of commercial shipments, the purchaser and the supplier should conduct comparative tests to determine if there is a statistical bias between their laboratories. Competent statistical assistance is recommended for the investigation of bias. As a minimum, the two parties should take a group of test specimens which are as homogeneous as possible and which are from a lot of material of the type in question. The test specimen should then be randomly assigned in equal numbers to each laboratory for testing. The average results from the two laboratories should be compared using Student's 5.3 The effects of the various reagents used in the chemical methods on the residual fibers in a blend depend upon the history of the fibers and, unless otherwise stated, are generally too small or too uncertain to warrant the application of correction factors.

5.4 Fiber composition is generally expressed either on the oven-dry mass of the original sample or the oven-dry mass of the clean fiber after the removal of nonfibrous materials. If nonfibrous materials are not first removed from the textile before the fiber analysis is carried out, or if the treatments described in Section 8 are incapable of removing them, any such materials present will increase the percentage of the fiber constituent with which they are removed during the analysis, assuming they are soluble in the solvent used.

5.5 The analytical methods are intended primarily for the separation of binary mixtures of fibers. These procedures may also be used for the analysis of mixtures containing more than two types of fibers by selecting the best combination of methods to use (Table 1). Since a sequence of solvents on a given fiber may produce different results than the expected results from a single solvent, it is advisable to determine the results of such sequential effects when testing multiple fiber blends. It is sometimes more convenient to separate mechanically the yarns in a textile which are of similar types, and then use the appropriate chemical method to analyze each of the components. Table 2 shows the solubilities of the various fibers in different chemical reagents.

Method No. 1—80 % acetone(cold)

Method No. 2— Method No. 3—90 % formic acid

Method No. 4—59.5 % sulfuric acid

Method No. 5—70 % sulfuric acid

Method No. 6—Sodium hypochlorite solution

Method No. 7—Curpammonia solution

Method No. 8—Hot xylene

Method No. 9—90 % formic acid

Method No. 10—N,N-dimethylacetamide

S = Soluble

PS = Partially Soluble

SS = Slightly Soluble (a correction factor may be applied)

I = Insoluble

1.1 These test methods cover procedures for the determination of the fiber blend composition of mixtures of the fibers listed in 1.2. Procedures for quantitative estimation of the amount of moisture and certain nonfibrous materials in textiles are also described, for use in the analysis of mixtures, but these are not the primary methods for the determination of moisture content for commercial weights.

1.2 These test methods cover procedures for the following fiber types:

1.2.1 Natural Fibers:

1.2.1.1 Cellulose-Base Fibers:

Cotton

Hemp

Flax

Ramie

1.2.1.2 Protein-Base Fibers:

Animal hairs (other than wool)

Silk, cultivated

Silk, Tussah

Wool

1.2.2 Man-Made Fibers:

1.2.2.1 Cellulose-Base Fibers:

Acetate (secondary)

Rayon, viscose or cuprammonium

Triacetate

1.2.2.2 Synthetic-Base Fibers:

Acrylic

Aramid

Modacrylic

Nylon 6, Nylon 6-6, others

Olefin

Polyester

Spandex

1.3 These test methods include the following sections and tables:

Section

Referenced Documents

Terminology

Summary of Methods

Uses and Significance

Sampling

Purity of Reagents

Moisture Content or Moisture Regain

Nonfibrous Materials

Mechanical Separation or Dissection

Chemical Test Methods:

Summary of Methods

Specimens and Symbols

No. 1 Acetate Mixed With Other Fibers

No. 2 Modacrylic Mixed With Cellulosic Fiber or Wool

No. 3 Nylon 6 or Nylon 6-6 Mixed With Natural Fibers or Rayon

No. 4 Rayon Mixed With Cotton

No. 5 Wool or Polyester Mixed With Cellulosic Fibers or Silk

No. 6 Polyester or Acrylic Mixed With Wool

No. 7 Natural Cellulosic Material and Rayon Mixed With Acrylic, Modacrylic, and Polyester

No. 8 Polyester Mixed With Olefin

No. 9 Polyester Mixed With Acetate or Nylon 6,6-6

No. 10 Acrylic Fiber or Linear Spandex Mixed With Nylon or Polyester

Microscopical Analysis

Scope

Summary of Method

Sampling

Apparatus

Procedure

Keywords

Table

Chemical Methods for Analysis of Fiber Mixtures

Solubilities of Various Fibers in Solvents Used in Chemical
Methods

Fineness Ranges and Fiber Diameters of Various Textile Fibers

Density and Moisture Regain of Common Fiber Types

1.4 The analytical procedures described in the test methods are applicable to the fibers listed in 1.2. The test methods are not satisfactory for the separation of mixtures containing fibers that fall within the same generic class but differ somewhat, either physically or chemically, from each other. These test methods are not satisfactory for the determination of bicomponent fibers.

Note 1: For other methods of analysis covering specific determinations, refer to: Test Methods D461, Test Method D584, Methods D885, Test Method D1113, Test Method D1334, and Test Method D2130. Methods for moisture are covered in Methods D885, Test Method D1576, Test Method D2462, Test Method D2495 and Test Methods D2654. For the determination of commercial weight, refer to Test Method D2494.

1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

2. Referenced Documents

D2654-22	Standard Test Methods for Moisture in Textiles
20	A Test Method for Fiber Analysis: Quantitative AATCC Technical Manual, available from the American Association of Textile Chemists and Colorists, P.O. Box 12215, Triangle Park, NC 27709, www.aatcc.org.
D276-12	Standard Test Methods for Identification of Fibers in Textiles (Withdrawn 2021)
D123-23	Standard Terminology Relating to Textiles
D2494-13(2020)	Standard Test Method for Commercial Mass of a Shipment of Yarn or Manufactured Staple Fiber or Tow
D2462-22	Standard Test Method for Moisture in Wool by Distillation With Toluene
D2130-22	Standard Test Method for Diameter of Wool and Other Animal Fibers by Microprojection
D1909-13(2020)e1	Standard Tables of Commercial Moisture Regains and Commercial Allowances for Textile Fibers (Includes all amendments and changes 6/30/2020).
D2495-07(2019)	Standard Test Method for Moisture in Cotton by Oven-Drying
D461-93	Standard Test Methods for Felt (Withdrawn 2004)
D584-10(2018)	Standard Test Method for Wool Content of Raw Wool´Laboratory Scale
D885-07	Standard Test Methods for Tire Cords, Tire Cord Fabrics, and Industrial Filament Yarns Made from Manufactured Organic-Base Fibers
D1113-13	Standard Test Method for Vegetable Matter and Other Alkali-Insoluble Impurities in Scoured Wool (Withdrawn 2022)
D1193-06(2018)	Standard Specification for Reagent Water
D1334-18	Standard Test Method for Wool Content of Raw Wool´Commercial Scale
D1576-22	Standard Test Method for Moisture in Wool by Oven-Drying
D4920-13	Standard Terminology Relating to Conditioning, Chemical, and Thermal Properties (Withdrawn 2022)

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