71.060.20 氧化物 标准查询与下载

HG/T 3928-2007 工业活性轻质氧化镁

本标准规定了工业活性轻质氧化镁的要求，试验方法，检验规则，标志、标签，包装、运输、贮存。 本标准适用于工业活性轻质氧化镁。该产品主要用作氯丁橡胶、丁基橡胶、丁苯橡胶、氟橡胶、粘合剂和PVC的配合剂，还可用于石油化工、仪表电子、油漆、油墨、塑料、造纸等行业。 分子式：MgO 相对分子质量：40.30（按2005年国际相对原子质量）

Activated light magnesium oxide for industrial use

YS/T 633-2007 四氧化三钴

本标准规定了四氧化三钴（CoO）的要求、试验方法、检验规则、包装、标志、运输、贮存和质量证明书。 本标准适用于供生产锂离子电池材料、磁性材料以及热敏电阻及其他用途的四氧化三钴。

Cobaltosic oxide

YS/T 639-2007 纯三氧化钼

本标准规定了纯三氧化钼的要求、试验方法、检验规则和标志、包装、贮存运输及合同内容等。 本标准适用于钼酸铵焙解法及其他方法制取的纯三氧化钼。

Pure molybdenum trioxide

HG/T 2573-2006 工业轻质氧化镁

本标准规定了工业轻质氧化镁的分类、要求、试验方法、检验规则、标志、标签，包装、运输、贮存。 本标准适用于由合成的碱式碳酸镁、氢氧化镁锻烧制得的工业轻质氧化镁。该产品主要用于塑料、橡胶、电线、电缆、染料、油脂、玻璃陶瓷等工业。 分子式：MgO 相对分子质量：40.30（按2001年国际相对原子质量）

Light magnesium oxide for industrial use

HG/T 2679-2006 工业重质氧化镁

本标准规定了工业重质氧化镁的分类，要求，试验方法，检验规则，标志、标签，包装、运输、贮存。 本标准适用于由菱苦土煅烧制得的重质氧化镁。该产品主要用于化工、橡胶、塑料及建材等行业。 分子式：MgO 相对分子质量：40.30（按2001年国际相对原子质量）

Heavy magnesium oxide for industrial use

HG/T 2572-2006 工业活性氧化锌

本标准规定了工业活性氧化锌的要求，试验方法，检验规则，标志，标签、包装、运输、贮存和安全要求。 本标准适用于湿法制得的工业活性氧化锌。该产品主要用于橡胶或电缆的补强剂、活化剂（天然橡胶）、天然橡胶和氯丁橡胶的硫化剂。还可用于电子、陶瓷等行业。 分子式：ZnO 相对分子质量：81.39（按2001年国际相对原子质量）

Activated zinc oxide for industry use

JIS K 1410 AMD 1:2006 氧化锌

Zinc oxide

JIS K 1401 AMD 1:2006 三氧化二铬（修改件1）

This translation has been made based on the Amendment to the original Japanese Industrial Standard revised by the Minister of Economy,Trade and Industry through deliberations at the Japanese Industrial Standards Committee in accordance with the Industrial Standardization Law. Consequently,JIS K1401-1992 is partically replaced with this Amendment.

Dichromium trioxide (Amendment 1)

ASTM C1638-06 碘铱碘129的测定标准指南

The determination of 129I is not typically requested in nuclear fuel specifications however it is commonly requested for disposal of the spent fuel, or for disposal of excess uranium from national weapon complexes. This practice can provide results of sufficient quality for waste disposal repositories.1.1 This method covers the determination of iodine-129 (129I) in uranium oxide by gamma-ray spectrometry. The method could also be applicable to the determination of 129I in aqueous matrices.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 to determine the applicability of regulatory limitations prior to use.

Standard Guide for the Determination of Iodine-129 In Uranium Oxide

ARMY MIL-Z-291 G VALID NOTICE 2-2004 工业氧化锌 [代替:ARMY MIL-Z-00291 D]

MIL-Z-291G remains inactive for new design, however, the document is valid for use.

ZINC OXIDE, TECHNICAL [Use In Lieu Of: ARMY MIL-Z-00291 D]

YB/T 5206-2004 轻烧氧化镁

本标准规定了轻烧氧化镁的牌号、技术要求、试验方法、检验规则、包装、标志、运输、贮存及质量证明书。 　　本标准适用于耐火材料、建材、造纸、化工、橡胶、陶瓷、农牧业等用途的轻烧氧化镁。

Caustic burned magnesia

YB/T 115-2004 不定形耐火材料用二氧化硅微粉

本标准规定了不定形耐火材料用二氧化硅微粉的牌号、技术要求、试验方法、检验规则、包装、标志、贮存、运输和质量证明书。 　　本标准适用于冶炼铁合金或工业硅时，通过烟罩收集的含硅烟气，氧化凝聚后经干式收尘装置收集的二氧化硅微粉。

Silica fume for unshaped refractory

TIS 2106-2001 食品和药品用氧化锌

Zinc oxide for food and pharmaceutical use

TIS 539-2003 医用二氧化碳

Medical carbon dioxide

KS M 8560-2003(2018) 钴酸锂

lithium cobalt oxide

KS M 8560-2003(2023) 锂钴氧化物

Lithium cobalt oxide

KS M 8560-2003 氧化锂钴

이 규격은 리튬 이차 전지의 전극 재료로 사용되는 리튬코발트 옥사이드에 대하여 규정한다

Lithium cobalt oxide

DIN 51001:2003 氧化原材料和基础材料检验.X射线荧光法通用作业基础

This standard specifies methods for the preparation of test samples for XRF and for the determination of oxide content. It is applicable to testing of raw materials and materials with preferably oxidical composition except for products in accordance with DIN EN ISO 12677.

Testing of oxidic raw materials and basic materials - General bases of work for X-ray fluorescence method (XRF)

DIN 51001 Bb.1:2003 氧化原材料和基础材料测试.X射线荧光法(XRF)测试通用基础.XRF试样测定用材料分组方法总则

Testing of oxidic raw materials and basic materials - General bases of work for X-ray fluorescence method (XRF) - General survey on disintegration methods referred to groups of materials for the determination of test specimens for XRF

ASTM D1993-03(2008) 用多点布-埃-特氮气吸附法对沉积二氧化硅表面面积的测试方法

This test method is used to measure the surface area of precipitated, hydrated silicas that is available to the nitrogen molecule using the multipoint (B. E. T.) method. Solids adsorb nitrogen and, under specific conditions, the adsorbed molecules approach a monomolecular layer. The quantity in this hypothetical monomolecular layer is calculated using the BET equation. Combining this with the area occupied by the nitrogen molecule yields the total surface area of the solid. This test method measures the estimated quantity of nitrogen in the monomolecular layer by adsorption at liquid nitrogen temperature and at several (at least five) partial pressures of nitrogen. Before a surface area determination can be made it is necessary that the silica be stripped of any material which may already be adsorbed on the surface. The stripping of adsorbed foreign material eliminates two potential errors. The first error is associated with the weight of the foreign material. The second error is associated with the surface area that the foreign material occupies.1.1 This test method covers a procedure which is used to measure the surface area of precipitated hydrated silicas by the conventional Brunauer, Emmett, and Teller (BET) theory of multilayer gas adsorption behavior using multipoint determinations, similar to that used for carbon black in Test Methods D 4820. This test method specifies the sample preparation and treatment, instrument calibrations, required accuracy and precision of experimental data, and calculations of the surface area results from the obtained data. 1.2 This test method is used to determine the nitrogen surface area of precipitated silicas with specific surface areas in the range of 1 to 50 hm2/kg (10 to 500 m2/g). 1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.4 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. The minimum safety equipment should include protective gloves, sturdy eye and face protection, and means to deal safely with accidental mercury spills.

Standard Test Method for Precipitated Silica-Surface Area by Multipoint BET Nitrogen Adsorption