Domestic orders in Japan totaled 50.76 billion yen in June, up 30.6% from May, the first time in three months. It was down 15.8% from June last year and is the fifth consecutive year-on-year decline since this year.
In major industry sectors, industrial machinery orders increased by 39.0% in June, auto manufacturing orders rose 22.0%, orders for electronics and precision machinery increased by 47.6%, and orders for aviation, shipbuilding and transportation equipment increased by 19.2%.
Japan’s foreign trade orders totaled 5.83 billion yen, down 11.0% from May, the first time in two months. Compared with the same period of last year, it decreased by 23.1%; it was the 13th consecutive month of decline.
In terms of the order area, Asian orders fell by 3.4% from May, with orders totaling 25.57 billion yen; a decrease of 27.9% compared with the same period last year. European orders fell 11.6% from May, with orders totaling 14.08 billion yen; down 13.5% from the same period last year. Orders in North America totaled 17.76 billion yen, down 20.4% from May and down 20.1% from the same period last year. (Source: Japan Machine Tool Industry Association; this article is translated by China Superhard Materials Network, please indicate the source.)
Hot runner systems are feed systems for injection molds which convey molten plastic from the machine nozzle into the cavity. Hot runner systems consist of the components listed below, from which your individual system can be made.
Although there are many hot runner manufacturers and multiple hot runner product series in the world, a typical hot runner system is composed of the following parts:
1. (MANIFOLD)
2. (NOZZLE)
3. Temperature Controller
4. Auxiliary parts
The types and applications of these parts will be discussed in depth in future articles.
Technical key
A successful hot runner mold application project needs to be guaranteed by multiple links. Two of the most important are technical factors. One is the control of plastic temperature, and the other is the control of plastic flow.
1. Plastic temperature control
Plastic temperature control is extremely important in hot runner mold applications. Processing and product quality that appear in many production processes
The problem directly stems from the poor temperature control of the hot runner system. Such as the problem of poor quality of the gate of the product during injection molding using the hot pin gate method, the difficulty of closing the valve pin during the molding of the valve gate method, the problem of inconsistent filling time and quality of parts in the multi-cavity mold. If possible, you should try to choose a hot runner system with separate temperature control in multiple areas to increase flexibility and adaptability.
2. Control of plastic flow
Plastics must flow balanced in the hot runner system. The gate should be opened at the same time to allow the plastic to simultaneously fill each cavity. For FAMILY MOLD, where the weight of the parts differ greatly, the design of the runner size should be balanced. Otherwise, there will be problems that some parts are not filled enough, but some parts are overfilled, and the flash is too large and poor quality. The size design of hot runner runner should be reasonable. The size is too small and the pressure loss of the mold is too large. If the size is too large, the volume of the hot runner is too large, and the residence time of the plastic in the hot runner system is too long, which may damage the performance of the material and cause the parts to fail to meet the requirements after molding. There are already CAE software such as MOLDCAE in the world that specifically help users to design the best runners.
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