Surpassing loveliness and grace knitting culture in nineteenth-century New England /

Putnam, Laura Katherine.

January 2010

Honors Project--Smith College, Northampton, Mass., 2010. / Includes bibliographical references (p. 98-103).

A study of warp knitting of elasticized nylon yarn

Efland, Thomas Daniel

January 1956

No description available.

Nylon

Knitting

Warp knitting of staple yarns

Anand, S. C.

January 1972

No description available.

677

Yarn knitting performance

An investigation of the mechanics of loop formation in warp knitting

Griffith, Ross Ernest

January 1981

No description available.

677

Fabric knitting

Hydraulic positioning on a multiple guidebar warp knitting machine

Porat, Itzchak

January 1982

No description available.

621.2

Knitting machine control

The interactive three dimensional computer aided design of industrial circular weft knitting machines

Simms, G. J.

January 1981

No description available.

621.8

Knitting machine design

Aspects of hollow spindle fancy yarn

Overington, Y. H.

January 1986

No description available.

677

Knitting, decorative

A study of mechanics of spirality in plain knitted fabrics

Prakash, Dhairya

January 1976

No description available.

Knit goods

Machine knitting

I knit therefore I am an ethnomethological study of knitting as constitutive of gendered identity /

Medford, Kristina M.

January 2006

Thesis (Ph.D.)--Bowling Green State University, 2006. / Document formatted into pages; contains v, 109 p. Includes bibliographical references.

Analysis and design of high-speed electromagnetic moving-iron actuators

Affane, Wadi

January 1992

High-speed electromagnetic moving-iron actuators are experimentally investigated and numerically simulated, using digitally-controlled instrumentation techniques, lumped-parameter( magnetic equivalent circuit)networks,and field (finite-element) models. Various actuator topologies, based on the moving-iron principle, that are capable of achieving very high operating speeds, are also investigated. An optically-based and digitally-controlled instrumentation technique is developed to assessth e actuatord ynamic performance.A dual voltage (microprocessor-controlled) strategy is also developed to improve actuator speed of response. A lumpedparameter model that accurately simulates, with minimum computation, the dynamic behaviour of the actuator is developed and experimentally verified. This model, whose magnetic parameters are derived from static field results, accounts for magnetic saturation, 3D effects due to width change between iron parts and transverse edge fluxes, and the dynamic coupling of the actuator system variables. A static lumped-parameterm odel is developed,i n parallel, to achieve insight into the underlying actuator design principle, and rapid predictions of the effects of parametric changes. Two-dimensional field models are developed, using a commercial finite-element package, to accurately predict the saturation levels, and to estimate the mmf/flux characteristics of each actuator component (iron and air part) and force characteristics for use in the dynamic lumped-parameter model. The 3D effects are taken into account by incorporating the results of 2D scalar potential models, in typical transverse planes, into the longitudinal (main path) solution using suitable compensation factors. Transient eddy current effects are also investigated. The study is extended by surveying various topologies of moving-iron devices, and analysing their relative performances. The objective of this investigation is to establish, quantify, and compare the factors limiting the performance, particularly the maximum accelerationr ate.

621.31042

Actuators in knitting machines