Faucets are utilised frequently to regulate the flow of water in a variety of settings, including bathrooms, kitchens and showers. These products occupy a significant position not only in terms of their functionality but also in terms of their aesthetic appeal. In addition to their functional role, faucets occupy a significant position in terms of interior design, particularly in hospitality settings such as hotels and cafés. The production of faucets through traditional methods can become a complex process when it comes to the creation of original designs. At this juncture, the additive manufacturing method, which is regarded as the production method of the future, is the preferred method of production. It is important to consider a number of factors when using additive manufacturing methods. One of the crucial steps in the additive manufacturing process is the selection of an appropriate material for the intended design and usage area. Consequently, a variety of materials, including titanium (Ti). Its alloys, as well as stainless steel, can be manufactured using metal printers. This study examines the advantages and disadvantages of parts produced with metal alloy material in additive manufacturing, a form of innovative manufacturing technology. Furthermore, the parameters governing the production process, such as layer thickness, laser power and scanning speed, are of significant importance in additive manufacturing. In this study, an armature body was produced from 316L SS material by the additive manufacturing method. The acoustic and flow rate parameters were compared between the armature bodies produced by two different manufacturing methods.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Design and Characterization of Faucet Producible with 3D Metal Printer

  • Özüm Karabacaklar Bayramoğlu,
  • Mustafa Aydın

摘要

Faucets are utilised frequently to regulate the flow of water in a variety of settings, including bathrooms, kitchens and showers. These products occupy a significant position not only in terms of their functionality but also in terms of their aesthetic appeal. In addition to their functional role, faucets occupy a significant position in terms of interior design, particularly in hospitality settings such as hotels and cafés. The production of faucets through traditional methods can become a complex process when it comes to the creation of original designs. At this juncture, the additive manufacturing method, which is regarded as the production method of the future, is the preferred method of production. It is important to consider a number of factors when using additive manufacturing methods. One of the crucial steps in the additive manufacturing process is the selection of an appropriate material for the intended design and usage area. Consequently, a variety of materials, including titanium (Ti). Its alloys, as well as stainless steel, can be manufactured using metal printers. This study examines the advantages and disadvantages of parts produced with metal alloy material in additive manufacturing, a form of innovative manufacturing technology. Furthermore, the parameters governing the production process, such as layer thickness, laser power and scanning speed, are of significant importance in additive manufacturing. In this study, an armature body was produced from 316L SS material by the additive manufacturing method. The acoustic and flow rate parameters were compared between the armature bodies produced by two different manufacturing methods.