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NB/SH/T 0929-2016 (NB/SH/T0929-2016)

Chinese standards (related to): 'NB/SH/T 0929-2016'

Standard ID	Contents [version]	USD	STEP2	[PDF] delivered in	Standard Title (Description)	See Detail	Status	Google Book
NB/SH/T 0929-2016	English	189	Add to Cart	3 days	Standard test method for determination of chlorine in lubricating oils by inductively coupled plasma atomic emission spectrometry	NB/SH/T 0929-2016	Valid	NBSHT 0929-2016

BASIC DATA
Standard ID	NB/SH/T 0929-2016 (NB/SH/T0929-2016)
Description (Translated English)	Standard test method for determination of chlorine in lubricating oils by inductively coupled plasma atomic emission spectrometry
Sector / Industry	Energy Industry Standard (Recommended)
Classification of Chinese Standard	E40
Classification of International Standard	75.100
Word Count Estimation	8,869
Date of Issue	2016-12-05
Date of Implementation	2017-05-01
Quoted Standard	GB/T 4756; GB/T 4901; GB/T 6683; GB/T 17476; NB/SH/T 0843; ASTM D6792
Drafting Organization	China Petrochemical Lubricating Oil Co., Ltd. Chongqing Branch
Administrative Organization	National Petroleum Products and Lubricants Standardization Technical Committee of synthetic oil points Technical Committee
Regulation (derived from)	State Energy Administration Bulletin No.9 of 2016
Summary	This standard specifies the method using inductively coupled plasma-atomic emission spectrometry (ICP-AES) Determination of chlorine content in lubricating oil. The scope of this standard is: 0.0039% ~ 13.56% (mass fraction). This range is the range of sample concentrations studied in the laboratory. Chlorine content below this range of samples can be taken to increase the amount of sample determination method, the lower limit of determination of the concentration of the instrument depends on the sensitivity and dilution factor; chloride content higher than this range of samples can be taken to reduce the sample Or the sample is dissolved to increase the dilution of the method to be measured, the upper limit of determination of the concentration depends on the calibration curve of the highest concentration and sample dilution factor. However, the precision under these conditions has not yet been determined. The precision of these conditions may be related to Table 2