By Tyrone L. Vigo and Louis J. Nowacki (Eds.)
content material: development and clients for strength conservation in plastics processing / Rudolph D. Deanin --
innovations in power mark downs in plastics processing / Nick R. Schott and Howard Derby --
strength potency in plasticating screw extrusion / C.I. Chung, E.M. Mount, III, and D.E. McClelland --
power conservation via silicone liquid polymer processing approach / J.L. Elias, M.T. Maxson, and C.L. Lee --
Microwave curing of silicone elastomers and foams for strength rate reductions / C.L. Lee --
the significance of curing stipulations in total strength necessities for natural coatings / V.D. McGinniss, L.J. Nowacki, and S.V. Nablo --
Electron-curable coatings and adhesives : formula fundamentals and alertness know-how / J.P. Guarino and E.P. Tripp --
Optimization of therapy stipulations in the course of processing of acrylic latex coatings / Chor Huang and Edward J. Leeson --
New strength saving reactive acrylic liquid polymers for the strain delicate adhesives / Y.-S. Lee --
power conservation in cotton ginning / Roy V. Baker and Oliver L. McCaskill --
Sizing and desizing textiles with degraded starch and ultrasonic options to preserve power / G.M. Elgal, G.F. Ruppenicker, Jr., and N.B. Knoepfler --
power and similar discount rates from managed low rainy pick-up software of fabric chemical substances and dyes through semistable foams / George M. Bryant --
The usage of foams within the rainy processing of textiles / R.S. Gregorian, R.A. Bafford, and C.G. Namboodri --
Low power curing pigment padding and printing : use of a hugely energetic catalyst procedure / D.V. Parikh --
Radiation-curable, a hundred% reactive pigment prints : the impact of paste rheology on print caliber / L.H. Wadhwa and W.K. Walsh --
Dyebath and auxiliary bathtub reuse for power and mass conservation / F.L. cook dinner and W.C. Tincher --
power intake and conservation : cloth drying / David Brookstein --
potent use of textiles for power conservation / Tyrone L. Vigo and Charles B. Hassenboehler, Jr.
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Extra info for Energy Conservation in Textile and Polymer Processing
At low metal surface temperatures and h i g h rubbing v e l o c i t i e s , the melting mechanism by i t s e l f consumes excessive mechanical energy from the motor, much more than necessary t o heat the polymers from room temperature t o the metal surface temperature. The m e l t i n g mechanism at high rubbing v e l o c i t i e s always consumes enough me c h a n i c a l energy t o heat the polymers from room temperature t o the metal surface temperature even at high metal surface temperatures.
Changing the s t r u c t u r e o f the s i l i c o n e polymer. B. Introduce an a d d i t i v e , which has a high l o s s index. In the former approach, the l o s s index can be increased by changing the s u b s t i t u e n t s on s i l i c o n e . Vincent et a l (5_) r e ported that as the R group i n Me3Si0(MeRSi0) SiMe was changed from methyl to a bulky p o l a r group, the d i e l e c t r i c constant and l o s s f a c t o r increased d r a s t i c a l l y . T h i s i s shown i n Table I .
S. Patent 4,066,603 (1978). 9. S. Patent 4,026,844 (1977). 10. S. Patent 4,032,502 (1977). RECEIVED February 8, 1979. ; ACS Symposium Series; American Chemical Society: Washington, DC, 1979. 6 The Importance of Curing Conditions in Overall Energy Requirements for Organic Coatings V. D. McGINNISS and L. J. NOWACKI Battelle, Columbus Laboratories, Columbus, OH 43201 S. V. , Woburn, MA 01801 Coatings for industria the years with only mino give energy requirements for preparation, application, and curing.