CS274093B1 - Admixture into lubrications for glass fibres' surface treatment - Google Patents

Abstract

The invention describes the used of segmented polymers of ethylene oxide and propylene oxide with terminal oxypropylene segments as admixtures for reducing the adhesion of film-forming substances for lubrication.

Description

The present invention relates to a primer for reducing laplosetting film formers to glazing fibers.

For the surface treatment of green fibers, wide use as film-forming substances has been found in various synthetic and natural macro-molecular substances, most often in the form of solutions and dispersions! or emulsion.

The production of fibers, either on the principle of single-stage or two-stage technology, consists in joining the elementary fibers, the rule of 200 to 2000 fibers, into the strand by lubricating and winding the coil, the so-called coke. When drying the cocoon, most often at temperatures of 110 to 140 ° C or at normal temperature, the film-forming substances adhere to the individual elementary strands into an integral strand. In the course of this process, and because of the adhesive of the film-forming substances, not only the strands of the strand are bonded together, but there is also an increased bonding of the strands into the funnel. This phenomenon causes the strands to unwind when the studs are reworked, and with some resistance, which causes incomplete reworking of the bobbins and also negatively affects the textile properties, especially in the production of the twisted yarn. The solution to this problem by using substances, mineral or synthetic oils (MS, author's certificate No. 2S7 484) is not universally, especially because of the increase in the surface resistance of the inclined fibers, which also has a negative effect on the processing of the fibers due to the electrostatic charge.

It has been found that these problems can be effectively solved by using the compounds of the invention. The principle of the invention is that ββ uses segmental polymers of ethyloneoxide and propyl oxide and terminal oxypropylone eegmentaml containing 15 to 70% by weight of a polyetoxomer per molecule, with an average molecular weight of 400 to 3500, as additives to reduce the tackiness of film forming agents to lubricate glass fiber surface.

This use of these compounds is based on empirical gold that said polymers, which contain oleophilic oxypropylene units at the end segments, reduce the tackiness of the film-forming substances, thereby distinguishing them from the ethylone-propylene oxide polymers prepared by hydrophilic eu segments at the ends of the polymer. et al .: Surfactants, ALFA Bratislava 1977 p. 92).

The advantage of the solution according to the invention is, in particular, that the defined group of polymers is noticeably low in tack, but does not deteriorate the electrostatic properties of the yarns, and is practically harmless in terms of health and ecology. The inclined fibers may be used to reinforce the plastics without adversely affecting the improvement, since many of these compounds are insoluble in water. They can be applied to aqueous lubricant compositions! either in the form of emulsions or colloidal solutions from the use of either different surfactants, emulsifiers, hydrophilic water-soluble polymers, lubricants and the like. Decreasing the stickiness of the inclined strands in the form of cocoon makes it easy to pull from the reels, which has a positive impact on textile processing and reduction of glass fiber waste.

The invention is further elucidated by way of examples in which the composition is given by weight of concentrate

Example 1

Segmented polymers of ethylene oxide and propylene oxide with terminal oxypropylenes of new eegmentam were used as sits for lubrication:

A - a polymer having an average molecular weight of 500 to 20% of a polyetoxomer

B-polymer having an average molecular weight of 1,200 and 50% of a polyetoxomer

C-polymer having an average molecular weight of 3,500 with 65% polyetoxomer

Basic lubrication contained 10% polyvinyl acetate] dispersions (dry matter 50%) plasticized 20% dibutyl phthalate, 0.5% aromatic diallan based on phthalic anhydride and 3-aminopropyltriethoxysilane (dry matter 50%), 0.4% 12.5% ammonium amide acetate emulsion diethylenetriamine e with oleic acid, 0.05% of said segmented polymers of ethylene oxide / CS 274093 Bl and propylene oxide, and the remainder to 100% water. In the preparation of the segment polymer solutions aa, they were emulsified into the colloidal solutions by mixing with said aminoamide acetate prior to their addition to water. Lubricants ae were used to treat the inclined fibers of E-ekl with a direct thickness of 13 µm. The treated aclanted fibers in the form of a cocoon aa were dried at 125 ° C and used to produce leaked fibers. In relation to the Standard, i. without said segmental polymers in lubrication, and a glass fiber cocoon was substantially prepared on the aekanle, which improves the working conditions, and reduced the unprocessed fiber content.

Example 2

The base lubrication ea consisted of a 10% adduct based on epoxy resin with a molecular weight of 380, diethylenetriamine and diethanolamine in a molar ratio of 1: 0.3 (1 (auSino 50%), 0.3% acetic acid, 0.3% boric acid) 2.2% monopropylone glycol based lubricant, 0.5% oxirane / mataloxirane copolymer and fatty alcohols, 1% segmented polymer of ethylene oxide and propyl oxide and terminal oxypropylene agglomerates with an average molecular weight of 1200 and 50% polyetoxamer and the remainder to 100% water The process for preparing said lubricant comprises mixing an additional amount of the opoxic resin adduct and mixing it with acetic acid, a segmented polymer of ethylene oxide and propyl oxide, and, after water has been added, to the main amount of water required to prepare the lubricant. aa used to treat glass fibers with an average thickness of 9 µm, ¹ used to make for the electrical industry or for the coating of various conductors.

Claims (2)

Use of segmented polymers of ethylene oxide and propyl oxide and terminal oxypropylene segments containing 15 to 70% by weight of a polyetoxamer per molecule, with an average molecular weight of 400 to 3,500, as an additive for reducing the tackiness of film forming agents to lubricate glass fiber surfaces.