共找到 1457 条与 其他纺织制品 相关的标准,共 98 页
This standard is valid for the design, calculation and the manufacture of components for enclosures made of textile fabrics and plastic films, mainly for tent halls with primary support structure, excluding air-inflated tents and cushion constructions.
Components for enclosures made of textile fabrics and plastic films - Part 1: Structures and tents
This Standard defines the test for factory production control and third party monitoring of components for enclosures made of textile fabrics and plastic films according to DIN 18201-1.
Components for enclosures made of textile fabrics and plastic films - Part 101: Conformity assessment for tents and halls according to DIN 18204-1
Geosynthetics - Part 1: Terms and definitions; Amendment 1
5.1 This test method is performance oriented for determining if, and to what degree, different liquids create biological activity on geotextile filters thereby reducing their flow capability. The use of the method is primarily oriented toward landfill leachates but can be performed with any liquid coming from a particular site or synthesized from a predetermined mixture of biological microorganisms. 5.2 The test can be used to compare the flow capability of different types of geotextiles or soil/geotextile combinations. 5.3 This test will usually take considerable time, for example, up to 1000 h, for the biological activity to initiate, grow, and reach an equilibrium condition. The curves resulting from the test are intended to indicate the in situ behavior of a geotextile or soil/geotextile filter. 5.4 The test specimen can be incubated under nonsaturated drained conditions between readings, or kept saturated at all times. The first case allows for air penetration into the flow column and thus aerobic conditions. The second case can result in the absence of air, thus it may simulate anaerobic conditions. 5.5 The flow rate can be determined using either a constant head test procedure or on the basis of a falling head test procedure. In either case, the flow column containing the geotextile or soil/geotextile is the same; only the head control devices change. Note 1: It has been found that once biological clogging initiates, constant head tests often pass inadequate quantities of liquid to accurately measure. It thus becomes necessary to use falling head tests, which can be measured on the basis of time of movement of a relatively small quantity of liquid between two designated points on a clear plastic standpipe. 5.6 If the establishment of an unacceptably high degree of clogging is seen in the flow rate curves, the device allows for backflushing with water or with water containing a biocide. 5.7 The resulting flow rate curves are intended for use in the design of full scale geotextile or soil/geotextile filtration systems and possible remediation schemes in the case of landfill lechate collection and removal systems. 1.1 This test method is used to determine the potential for, and relative degree of, biological growth which can accumulate on geotextile or geotextile/soil filters. 1.2 This test method uses the measurement of flow rates over an extended period of time to determine the amount of clogging. 1.3 This test method can be adapted for nonsaturated as well as saturated conditions. 1.4 This test method can use constant head or falling head measurement techniques.
Standard Test Method for Biological Clogging of Geotextile or Soil/Geotextile Filters
This document specifies a test method for the determination and testing of the composit coefficient to the soil using the pullout test.
Geosynthetics - Determination and testing of the interaction coefficient to the soil using pullout test
PTFE-based materials for flue gas filtration of coal-fired boilers
Aramid spunlace nonwovens for insulation
Rubber- or plastics-coated fabrics. Determination of coating adhesion
Rubber, vulcanized or thermoplastic. Rubber sheets and rubber-coated fabrics. Determination of transmission rate of volatile liquids (gravimetric technique)
Textile floor coverings. Determination of resistance to damage at cut edges using the modified Vettermann drum test
Medical patch elastic base fabric
Polyphenylene sulfide spunbond spunlace nonwoven filter material
Rubber- or plastics-coated fabrics - Determination of abrasion resistance - Part 1: Taber abrader (ISO 5470-1:2016); German version EN ISO 5470-1:2016
Rubber- or plastics-coated fabrics - Determination of tensile strength and elongation at break (ISO 1421:2016); German version EN ISO 1421:2016
Rubber- or plastics-coated fabrics - Determination of tear resistance - Part 1: Constant rate of tear methods (ISO 4674-1:2016); German version EN ISO 4674-1:2016
Rubber- or plastics-coated fabrics - Determination of roll characteristics - Part 2: Methods for determination of total mass per unit area, mass per unit area of coating and mass per unit area of substrate (ISO 2286-2:2016); German version EN ISO 2286-2:2
Rubber- or plastics-coated fabrics - Determination of roll characteristics - Part 3: Method for determination of thickness (ISO 2286-3:2016); German version EN ISO 2286-3:2016
Rubber- or plastics-coated fabrics - Determination of roll characteristics - Part 1: Methods for determination of length, width and net mass (ISO 2286-1:2016); German version EN ISO 2286-1:2016
Standard Terminology for Geosynthetics
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