介绍了一种电池钢壳滚镀镍的工艺流程和各主要工序的工艺规范。
The process flows and technical regimes of main sequence of barrel nickel plating for steel battery shell were introduced.
对电池钢壳滚镀镍工艺进行严格的控制,以达到降低生产成本、提高产品质量的目的。
The process of barrel nickel plating of steel battery shell is strictly controlled in order to reduce production cost and improve product quality.
对比了电池钢壳滚镀镍一步法、二步法及三步法,得出二步法在工艺上容易控制与管理。
One step method, two steps method and three steps method of barrel nickel plating of steel battery shell were compared, and the process of two steps method is found to be easy to control and manage.
它们发明了一种以精密卷绕对位技术在薄不锈钢膜上成型非晶硅太阳能电池的的制造方法。
It has developed a roll-to-roll manufacturing technique that forms thin-film amorphous silicon solar cells on thin sheets of stainless steel.
不锈钢、磁铁、硬币、吉他弦、电池等多种合金都含有镍。
Nickel is used in stainless steel, magnets, COINS, guitar strings, batteries, and in many different alloys.
由于密度不同,因此几种液态金属材料彼此之间并不会混合在一起,而会像油水那样出现分层结构。电池被装在一个不锈钢罐中,保持500度高温以便金属处于液化状态。
The battery is encased in stainless steel and is reported to have to maintain a temperature of 500 degrees to keep the metals inside in liquid form.
因此化学钢化能提高太阳能电池长期工作的可靠性,对提高太阳能电池的使用效率及寿命具有实际意义。
Consequently, ion exchange strengthened cover glass can increase the reliability of solar cell, which can improve service efficiency and prolong the life of solar cell.
绝对避免使用钢绳等金属线类,防止蓄电池短路。
Avoid the use of wire rope and other metal wire absolute, prevent battery short circuit.
结果表明:不同钢壳的无汞碱性锌锰电池初始期电性能无明显差异。
The results showed that the initial electric performance had no difference between batteries made of different steel cans.
为此,液态锂离子电池都是采用刚性的金属外壳如钢壳、铝壳等作外包装。
To avoid these dangerous things happening, liquid lithium-ion batteries all adopt rigid metal shell such as steel and aluminum as out covering.
钢壳对电池电性能的影响主要表现在电池储存以后的电性能上。
The influences of steel can on electric performance of batteries were mainly exhibited after storage.
该系列产品属于高端人造石墨,适用于钢壳、铝壳、圆柱和聚合物锂离子电池。
Steel, aluminum, cylindrical and polymer lithium-ion battery with high capacity or h.
利用电化学阻抗法和失重法,研究了X70钢在卵石黄泥土中的盐浓差宏电池腐蚀。
Salt concentration difference macrocell corrosion of X70 steel in yellow pebble soil was studied by means of EIS and weight loss method.
通过模拟闭塞腐蚀电池试验研究了钢在热处理前后的点蚀扩展速度,并利用电子探针和扫描电镜分析了钢表面的蚀坑形貌。
The pitting propagation rate was evaluated by simulating occluded corrosion cell (SOCC), and corrosive characteristic of pits was studied by scanning electro microscopy (SEM) and EPMA.
精密弹簧(压簧、拉簧、扭簧、异形弹簧及电池弹簧等)、USB不锈钢伸缩发条、铜铁铝铆(窝)钉、爪钉/管珠、玩具车轴。
Precision spring(compression/tension/torsion/special-shape/battery spring), USB stainless clockwork spring, copper, iron and aluminum rivet, nail claw/claw pearl, and toy axle.
最后对不锈钢支撑体上的电阻分布和电池堆内的气压的分布进行了测量。
The resistance distribution of the stainless steel supports and the distribution of air pressure within the cell stack are measured at last.
玻璃纤维毡生产商,包括屋面毡,玻璃钢表面毡,管道毡,贴面毡,蓄电池隔板毡等。
Manufacturer of fiberglass tissue, including roofing mat, FRP surfacing mat, pipe wrap mat, facing tissue, battery separator mat etc.
建立一个燃料电池与一对夫妇带艾滋病,多边环境协定和几个签名不锈钢错误屏幕由加文的DJ哈珀。
Build a Fuel Cell with a couple of Band Aids, an MEA and a few scraps of stainless steel bug screen by Gavin DJ Harper.
本文利用自行设计的实验系统,对自制的镀金不锈钢极板液态进料直接甲醇燃料电池的性能进行了测试。
The performance of the liquid feed direct methanol fuel cell was tested in a self designed experimental system. Two self-made gold plated stainless steel polar plates were installed in the fuel cell.
“我们对每一个征收的电池进行再利用,不管它的成分是什么都能用它们的副产品制造出新产品,包括电池和不锈钢用具。”史密斯说道。
"We recycle every bit of the batteries we collect, regardless of chemistry, and use their byproducts to make new products, including batteries and stainless steel items," Smith said.
它克服了现有钢壳圆柱形结构的一次性锂锰电池使用 不方便等不足之处。
The battery overcomes the disadvantage of inconvenience in using the one-time Lithium-Manganese battery with the prior steel-shell cylindrical shape.
外封面的彩色太阳能电池连接钢。
本发明涉及电池制造技术领域,具体涉及一种采用钢壳作为容器的碳性锌锰干电池及其制造工艺。
The invention relates to the battery manufacture technology field, in particular to a zinc manganese dry battery adopting a steel casing as the container, and the production process thereof.
广泛适用于铝、铜、钨、镍、铁、不锈钢等多种金属片、丝、棒的焊接以及电池,电真空器件,电子元件,小五金和热工测量仪表内部结构的装配和焊接。
Widely used in the welding of aluminum, copper, iron, stainless steel, and some vacuum wares, electronic components and the inner structures of the thermal measuring instruments.
广泛适用于铝、铜、钨、镍、铁、不锈钢等多种金属片、丝、棒的焊接以及电池,电真空器件,电子元件,小五金和热工测量仪表内部结构的装配和焊接。
Widely used in the welding of aluminum, copper, iron, stainless steel, and some vacuum wares, electronic components and the inner structures of the thermal measuring instruments.
应用推荐