MATERIAL SAFETY DATA SHEET
Prepared to US, OSHA, CMA, ANSI, and Canadian WHMIS Standards General Characteristics Health Hazards Material Recommendations

LAPPING COMPOUND
Part # 81-101-500

Is an off white and mildly odorous. It is comprised of white aluminium oxide in a complex mixture of glycols, waters, and flowers of sulphur. This is used as our cleaning compound. Double click here for the MSDS.

For html MSDS for Lapping Compound

ISOBUTYLENE - C₄H₈

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Isobutylene is a colorless, flammable and liquified gas with a faint odor. A simple asphyxiant, noncorrosive, most common materials can be used.

More on Isobutylene Uses:

Isobutylene - C4H8 - in its pure form is used in organic synthesis and in the production of high octane aviation gasoline. Its main use is in the production of Butyl rubber where it comprises 98% of the raw material used. Member of the alkene group of hydrocarbons. Alkenes serve as intermediates in the preparation of a variety of organic compounds. In the industrially important Oxo process, alkenes react catalytically with carbon monoxide and hydrogen to give aldehydes. Alkenes are polymerized by heating with catalysts to give high-octane gasolines, plastics, and synthetic rubber. Also called BUTYLENE, any of four isomeric compounds belonging to the series of olefinic hydrocarbons. The chemical formula is C4H8. The isomeric forms are 1-butene, cis-2-butene, trans-2-butene, and isobutylene. All four butenes are gases at room temperature and pressure. Butenes are formed during the cracking (breaking down of large molecules) of petroleum to produce gasoline; they can also be prepared commercially by the catalytic dehydrogenation (elimination of hydrogen atoms from the molecule) of butanes. The major part of the butenes is utilized for the production of octanes, which are important constituents of gasoline. This is done either by causing the butenes to react with isobutane or by dimerizing (combining two molecules of) butenes to form octenes, which, on hydrogenation (addition of hydrogen atoms to molecules), yield octanes. On treatment with water in the presence of catalysts, the butenes are transformed into secondary and tertiary butyl alcohols, which are used as commercial solvents. On dehydrogenation, normal butenes form butadiene, the principal starting material for synthetic rubber.

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*DISCLAIMER - ALL CHEMICAL PRODUCTS MAY BE HAZARDOUS IF IMPROPERLY USED, HANDLED OR STORED. ALWAYS ENSURE THAT YOU HAVE CONSULTED THE LATEST MATERIAL SAFETY DATA SHEET (MSDS) FOR ANY CHEMICAL PRODUCT BEFORE USING, HANDLING OR STORING A CHEMICAL PRODUCT, AND THAT YOU ARE WEARING AND USING ALL APPROPRIATE SAFETY EQUIPMENT.