Thermal ignition temperature was defined, the thermal ignition process of electric hot wire initiating devices was divided as calefactive phase and explosion phase.
定义了热点火温度,将桥丝式电火工品的热点火过程分为升温阶段和爆炸阶段。
The experimental process, when to set the burning time, heating voltage automatically disconnect, experimental automatic leave, car out of the hot wire.
灼热丝燃烧试验仪实验过程中,当达到设定的灼热时间时,加热电压自动断开,实验小车自动离开,脱离灼热丝。
To introduce process, equipment and technology parameters of sealed pipe type hot galvanizing for steel wire and to analyze in detail property of coat and process devices.
介绍密闭管道式钢丝热镀锌工艺、设备及技术参数,详细分析镀层的性能和工艺装置。
The surface temperatures of 304 stainless steel wire and rod during 18 passes hot continuous rolling process was measured.
实测了304不锈钢棒线材18道次热连轧过程各道次的表面温度。
For wire products, it is very interesting to realize continuous operations and intelligent control in the hot - dip galvanizing process.
实现线材在热镀锌过程中作业的连续化、控制的智能化意义重大。
The reason why tungsten wire is easy to break in the silicon thin film deposition process by hot wire deposition method was explained.
揭示了常规热丝法薄膜淀积工艺中热钨丝易断裂的原因。
The strengthening steel mesh bag using hot dip galvanized high strength steel wire rope as main material, the material of the special manufacturing process and high anticorrosion technology.
该加强钢丝网包采用热镀锌高强度钢丝绳做为系统主要材料,其材料的特殊制造工艺和高防腐防锈技术。
The researching results make known, to obtain the thin and dense oxide in the production process is effective way to enhance anti-corrosion properties of hot-rolled wire rod.
研究结果表明,生产过程中获得较薄且致密的氧化皮是提高热轧盘条防锈蚀性的有效途径。
The temperature field, stress field and strain field of 304 stainless steel wire and rod during 18 passes hot continuous rolling process were calculated.
对304不锈钢棒线材18道次热连轧过程的温度场、应力场及应变场进行了数值模拟。
Hot dipped galvanized iron wire: the product structure of high-quality carbon steel, the drawing, from hot-dip galvanizing process.
热镀锌丝:该产品应用优质碳素结构钢,经拉拔、热镀锌加工而成。
On a new experimental set-up of filter with three ceramic filter elements, the transient velocity outside the filter element is measured by hot-wire anemometer during pulse-jet cleaning process.
在由三根陶瓷滤管组成的实验装置上,利用热线风速仪对脉冲反吹时滤管外瞬态流场进行了测定,分析了喷吹压力、脉冲宽度、过滤气速和喷吹距离对滤管外流场的影响。
On a new experimental set-up of filter with three ceramic filter elements, the transient velocity outside the filter element is measured by hot-wire anemometer during pulse-jet cleaning process.
在由三根陶瓷滤管组成的实验装置上,利用热线风速仪对脉冲反吹时滤管外瞬态流场进行了测定,分析了喷吹压力、脉冲宽度、过滤气速和喷吹距离对滤管外流场的影响。
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