Japanese Industrial Standards

Japan JISC,JIS, Japanese Industrial Standards Committee, Agency of Industrial Science and Technology, Ministry of International Trade and Industry, 1-3-1 Kusumigaseki Chiyoda-Ku, Tokyo 100. 

Double Loop EPR Test Details of this procedure are given in Japanese Industrial Standard JIS G 0580 (1986). The sample is ground to a 1(X) grit finish then placed in the test solution for about 2 min to establish the rest potential (about —400 mV (S.C.E.) for AISl Types 304 and 304L stainless steel). 

HMC high strength molding JIS Japanese Industrial Standard... 

Table I. Five-day biochemical oxygen demand (BODs) by oxygen consumption method (Japanese Industrial Standard, JIS K 0102)...

Japanese Industrial Standards, 1-24 Akaska4 MinatoKu, Tokyo, Japan 107... 

JIS K 3602 (1990) Japanese Industrial Standard Apparatus for the estimation of biochemical oxygen demand (BODj) with microbial sensor... 

Explosives with a safety sheath are also used. The safety sheath must correspond to Japanese Industrial Standard M 7609 (1952). Two kinds are used (1) a sheath wrapper into which the cartridge is rolled, and (2) a sheath tube made in the form of a pipe into which a cartridge is inserted. 

Japan Unified Pressure Vessel Japanese Industrial Standards Enforced 0.2%-proof stress at working temperature/1.7... 

Japanese Industrial Standard, color, Z8729 (1996) Japanese Standard Association... 

Rubbers were compounded with the ingredients and vulcanized as shown in Table I. The vulcanizates were cut off from the sheet with JIS (Japanese Industrial Standard) No. 3 dumbbell cutter to prepare the samples for heat aging. Styrene-butadiene rubber (SBR), cw-polybuta-diene (BR), and butyl rubber (HR) vulcanizates were aged in the Geer oven at 100°C. for 48 hours. Natural rubber (NR) was aged at 100°C. for 36 hours. 

This equipment is modified from the 5kg drop hammer test equipment called for by Japanese Industrial Standards (JIS). A 5kg drop hammer was removed from the original equipment which was modified to attach 2kg and 5kg steel ball bearings. The front view of this equipment is shown in Figure 3.10. 

Two kinds of ballistic pendulum as shown in Figure 3.140 and 3.141 may be used in Japan. The former, owned by Nippon Kayaku Co., Ltd., is based on Japanese Industrial Standards (JIS) and the latter, owned by Nippon Oil and Fats Co., Ltd., is made from a cannon barrel like the ballistic pendulum at the Buxton Laboratory of HSE in Great... 

JISC (2008). Japanese Industrial Standards Committee JIS K0312 2005, 2008 Method for determination of tetra- through octachlorodihenzo-p-dioxins, tetra- through octachlorodibenzofurans and dioxin-like polychlorinated biphenyls in industrial water and waste water, 2005 2008. 

Ministry of International Trade and Industry (MITI), Japanese Industrial Standards -1041 Law of Control of Household Goods Containing Harmful Substances Law No. 112 of1973, Welfare Ministry Ordinance, Japan No.34—1974. 

Specifications for silver bullion, brazing alloys, electrical contact alloys, etc, are published by ASTM, the American Welding Society, Japanese Industrial Standards, SAE (Aerospace Materials Specifications), and the U.S. Department of Defense. ... 

Quinine was introduced as a "...primary calibration standard for light testing." In this draft, a "... 5% solution of quinine monochloride dihydrate in water..." Approximately 20 mL of this solution, hermetically sealed in two colorless ampoules (Japanese Industrial Standards No. 5) colorless ampoules or equivalent were to be used. One of these ampoules was to be protected from exposure by being wrapped in aluminum foil, the other exposed at a distance of about 30 cm for three hours. It was specified that "the transmittance of the exposed solution in 1cm cells should lie between 55% and 60%, and that the control should show no significant change (about 70%)." Radiometers were permitted as "...secondary standard UV measuring devices."... 

Under the Annex section of the document, two different options for the use of the quinine actinometer are allowed. A cylindrical Japanese Industrial Standard QIS) R3512 (1974), 20 mL, Japanese ampoule (Option 1) or a 1cm quartz cell (Option 2) are both allowed, even though they both have distinctly different UV absorption characteristics and geometries. In addition, the thickness of the vial is not specified in the diagram in the guideline. 

JIS Z8902-1984, Xenon Standard White Light Source. Japanese Industrial Standards Committee QISC), 1-3-1 Kasumigaseki, Chiyoda-ku, Tokyo 100-8901, Japan. 

The tensile strength, thickness of the samples were measured according to the Japanese Industrial Standard, JIS K-6740. The amounts of burr pushed out the machine were measmed as weight ratio to the total. 

Microalga-added paper was prepared according to the method stipulated by the Japanese Industrial Standard (JIS) P8209 [8]. Indexes of paper quality, including tensile strength, smoothness, air permeability and receptivity to printing ink were measured by the methods of JIS series P 8113, P 8119, P 8117 and J.TAPPI No.46, respectively [8]. 

Workability of ordinary plain cement mortar is generally estimated with the flow test by Japanese Industrial Standard (JIS). But this test method can not estimate sufficiently the workability of PLCM with visco-elastic behavior. 

After conditioning the boards at 25 C and RH 65% for one month, bending specimens measuring 50 mm in width and 280 mm in length were cut. The three-point bending test was conducted according to the JIS (Japanese Industrial Standard) A 5908, and modulus of rupture (MOR) of each type of board were determined. 

Board properties determined were modulus of rupture (MOR), modulus of elasticity (MOE), swelling and water absorption after 24-hour water soak. Testing was done according to Japanese Industrial Standard (JIS) 5906 except that 130x 25 mm bending specimens were tested over a 50 mm span. 

To analyze in accordance with procedures provided in the Japanese Industrial Standard or those established by the Environment Agency and MHW of Japan, in order to evaluate outgoing streams on the basis of Japanese national environmental standards and emission and effluent standards,... 

Materials and Fittings, A-5906-1983 Medium Density Fiberboard A-5907-1983 Hard Fiberboards, A-5908-1983 Particleboard, A-5909-1983 Dressed Particleboard, A-5910 Dressed Hard Fiberboard," Japanese Industrial Standards, (Official English Translation, available through the American National Standard Institute, New York), 1985... 

Formaldehyde (CH2O) release was measured for seven types of consumer products pressed wood, urea formaldehyde foam materials, clothes, insulation, paper, fabric, and carpet. A modified Japanese Industrial Standard (JIS) desiccator test was used to measure release rate coefficients and to rank 53 products. Ten pressed wood products and five urea formaldehyde foam products showed the highest CH2O releases (1-34 mg m 2.day"b The remainder, representing all product types, had lower releases ranging from 680 yg m 2.day to nondetectable levels. In other studies, CH2O release was measured in a ventilated chamber for single samples of particle board, plywood, insulation, and carpet. 

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