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792 result(s) for "Wire in art."
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Weaving with wire : creating woven metal fabric
\"Use a four- or eight-harness loom to weave an entirely new art material that you may never before have considered--metal! By using a wire warp and fiber weft, intermediate- to advanced-level weavers can create a woven metal fabric that is strong, malleable, and sculptural.\"--Page [4] of cover.
RESEARCH AND DEVELOPMENT OF STATE-OF-THE-ART WORLD-CLASS CABLES AND WIRES IN “YUZHCABLE WORKS” PUBLIC COMPANY
The kernel and solutions to the problem of designing state-of-the-art domestic cables and wires meeting world standard require-ments in “YUZHCABLE Works” Public Company are presented.
A Review on Wire-Laser Directed Energy Deposition: Parameter Control, Process Stability, and Future Research Paths
Wire-laser directed energy deposition has emerged as a transformative technology in metal additive manufacturing, offering high material deposition efficiency and promoting a cleaner process environment compared to powder processes. This technique has gained attention across diverse industries due to its ability to expedite production and facilitate the repair or replication of valuable components. This work reviews the state-of-the-art in wire-laser directed energy deposition to gain a clear understanding of key process variables and identify challenges affecting process stability. Furthermore, this paper explores modeling and monitoring methods utilized in the literature to enhance the final quality of fabricated parts, thereby minimizing the need for repeated experiments, and reducing material waste. By reviewing existing literature, this paper contributes to advancing the current understanding of wire-laser directed energy deposition technology. It highlights the gaps in the literature while underscoring research needs in wire-laser directed energy deposition.
Directed Energy Deposition (DED) Process: State of the Art
Metal additive manufacturing technologies, such as powder bed fusion process, directed energy deposition (DED) process, sheet lamination process, etc., are one of promising flexible manufacturing technologies due to direct fabrication characteristics of a metallic freeform with a three-dimensional shape from computer aided design data. DED processes can create an arbitrary shape on even and uneven substrates through line-by-line deposition of a metallic material. Theses DED processes can easily fabricate a heterogeneous material with desired properties and characteristics via successive and simultaneous depositions of different materials. In addition, a hybrid process combining DED with different manufacturing processes can be conveniently developed. Hence, researches on the DED processes have been steadily increased in recent years. This paper reviewed recent research trends of DED processes and their applications. Principles, key technologies and the state-of-the art related to the development of process and system, the optimization of deposition conditions and the application of DED process were discussed. Finally, future research issues and opportunities of the DED process were identified.
The state of the art of wire sawing-based hybrid cutting technology: a review
Wire saw cutting technology has been widely used in the processing of various hard and brittle materials, but there are also some shortcomings and limitations gradually emerging. Hybrid cutting technology based on wire sawing has gradually developed to further meet the needs of high efficiency, high surface quality, and low tool wear for cutting hard and brittle materials. The research progress of four wire sawing-based hybrid cutting methods, including electrochemical wire sawing, diamond wire electric discharge sawing, diamond wire electrochemical discharge sawing, and ultrasonic-assisted diamond wire sawing, is reviewed from the aspects of basic principles, process performance, and influencing factors in this paper. The advantages and disadvantages of each method are also briefly summarized. Finally, the future development and research direction are prospected. The content of this paper would provide help for present and future researchers and engineers in the identification of the significant parameters for getting better process performance.
A state of the art review of wire arc additive manufacturing (WAAM)–part 1: process fundamentals, parameters and materials
This comprehensive review examines wire arc additive manufacturing (WAAM) with a focus on process fundamentals, operational parameters, material characteristics, and quality aspects. Through systematic comparison with other metal additive manufacturing (AM) techniques, we elucidate the distinct advantages and limitations of WAAM, highlighting specific niches where this technology excels. The review provides an in-depth analysis of WAAM process parameters, including current, voltage, travel speed, wire feed rate, and their effects on deposit characteristics. A detailed examination of materials predominantly used in WAAM offers insights into process compatibility and material-specific challenges. The paper extensively investigates prevalent defects, their relationship with process parameters, and their influence on part quality. Finally, we analyze the microstructural and mechanical characterization of WAAM components across different materials and processing conditions. This review aims to provide researchers and practitioners with a fundamental understanding of WAAM technology, its capabilities, and current limitations.
Research Progress in Shape-Control Methods for Wire-Arc-Directed Energy Deposition
Wire-arc-directed energy deposition (WA-DED) stands out as a highly efficient and adaptable technology for near-net-shaped metal manufacturing, with promising application prospects. However, the shape control capability of this technology is relatively underdeveloped, necessitating further refinement. This review summarizes the latest advancements in the shape control of WA-DED technology, covering four pivotal areas: the regulation of various process parameters, optimization of the deposition paths, control through auxiliary energy and mechanical fields, and synergy between additive and subtractive manufacturing approaches. Firstly, this review delves into the influence of deposition current, travel speed, wire feed speed and other parameters on the forming accuracy of additively manufactured parts. This section introduces control strategies such as heat input and dissipation management, torch orientation adjustment, droplet behavior regulation, and inter-layer temperature optimization. Secondly, various types of overlap models and techniques for designing overall deposition paths, which are essential for achieving desired part geometries, are summarized. Next, auxiliary fields for shape and property control, including magnetic field, ultrasonic field, and mechanical field, are discussed. Finally, the application of milling as a subtractive post-process is discussed, and the state-of-the-art integrated additive-subtractive manufacturing method is introduced. This comprehensive review is designed to provide valuable insights for researchers who are committed to addressing the forming defects associated with this process.
Effect of Key Parameters on Fretting Behaviour of Wire Rope: A Review
Wire ropes are widely used in civil, mechanical and mining engineering. Safety of human life while using wire rope is always been a matter of great concern. Consequently, an efficient and safe performance of wire rope has always been an area of research. Fretting behaviour under repeated cyclic load in practical application is key player in performance of wire rope. Fretting behaviour is affected by a number of parameters viz. wire rope material, its tensile strength, lubrication and coating material and environmental factors like corrosive medium, operating temperature etc. There is a huge potential for further research in the area of fretting behaviour analysis. This paper presents a state-of-the-art review of key variables, their effect as well as remedial solution of fretting behaviour of wire rope.