1, automotive manufacturing
The production of complex automotive parts and for the processing of plastic parts, castings, forgings or stamping parts used in the mold. Mainly involved in the early stages of product production, the shortening of the product life cycle and cost pressures on the production of flexibility and integration process puts high demands on the production of errors are not allowed. The maintenance of partnerships requires trust, reliability and collaboration.
2. Motorcycling
Produces high quality parts.
New rules, individual needs, geographic specificity, continuous product improvement, and exotic, novel materials require manufacturers to continually produce new samples. While there is a requirement for flexibility and an expected level of risk, meeting sample processing deadlines can still make you a winner.
3. Aeronautics and aerospace
Making complex precision parts in high-temperature, heat-resistant alloys, titanium, aluminum, and other materials.
Expensive inspections, authorization systems, production rules and difficult-to-machine materials are among the challenges of machining aerospace parts. Superlative performance requirements, innovation and safety are equally important, as well as increasing demands for economy.
4, medical implants and medical devices
Making human implants and medical devices made of stainless steel, titanium or conventional materials.
Bio-adaptability of the part material and the special requirements of the medical environment has a certain impact on the development of production methods and processing. The adoption of new methods implies a high investment, but it is required by the new trend.
5, electronics and mechatronics industry
For the processing of mass production of plastic parts, alloy castings and stamping parts required for the molds, high-quality electrical chassis parts and components.
Electronic products have a very short life cycle, requiring processing flexibility and short processing time, so manual work must be eliminated. Process control and automated processing are indispensable. New processes are the beginning of innovation and a prerequisite for having the ability to compete.
6, daily necessities
Die-casting molds and blow molds for processing disposable packaging, single-use items, bulk products and individually designed products.
Family life every day to use a variety of supplies, unique design and consumer demand requires the continuous development of new manufacturing processes. Seemingly worthless items are often incredibly expensive to produce and require unimaginable precision.
7, leisure and sports
For the production of parts made of aluminum, plastic, alloy steel or other materials, as well as injection molds, aluminum die casting molds and stamping dies.
Sport and leisure trends are generally close to new designs. The earlier the product is on the market, the more profitable it is. Flexibility and speed of machining are zui important.
8, general-purpose processing
Producing a variety of uses, different materials parts.
The length of processing time is the basic measure of processing such products. Compared with automation and reliability in mass production, processing flexibility, workpiece clamping setup time for single-piece or small-lot processing is of equal importance.
9, metal products
Processing of stainless steel, brass, titanium or precious metals as raw materials for precision parts, products or personalized design products, as well as the processing of molds and dies used for mass production of popular products.
Exotic materials, minute details, high production and customer expectations are special challenges. These special requirements require appropriate thinking and unique core technologies.
10, energy industry
Processing of important parts of high heat-resistant alloys and molds for the manufacture of semi-finished products.
Complex shapes and special material properties require appropriate production processes and methods. Further developments in tools, machine tools and machining processes make machining increasingly rational. Their productivity determines the feasibility of machining.
Introduction of EDM technology: Two conductive bodies (electrodes/workpiece) submerged in an insulating fluid are connected to a switchable DC power supply. When the power supply is turned on, a voltage (positive/negative) is generated between the electrodes and the workpiece.
When the distance between the electrodes and the workpiece is reduced to a certain interval, a voltage discharge is generated and a spark is formed. Where the spark hits, a large amount of heat melts the metal away. Countless such sparks, one after the other (not all at the same time), cut the material into the desired shape. Effective electrical discharge machining requires hundreds of thousands of sparks per second.
Electro discharge molding process. In EDM, a three-dimensional electrode is used to form the desired shape of the workpiece. Through superimposed movements of the X, Y, Z, and C axes, shapes such as grooves and cavities can be machined, as well as a number of machining effects that are completely unattainable using other machining methods.
Powerful machining technology. Modern electrical processing equipment performance: processing speed, high automation efficiency, large processing program storage and the process of real-time monitoring and automatic correction process, can truly realize unmanned operation.