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The IoT is becoming fragmented, and the market demand for customized measurement is increasing. Under the four conditions of product size and shape, high computing, networking capabilities, and sensor interface integration, measurement and IoT vendors will customize design, so this article will focus on a key application of customized measurement: smart sensor.

In order to make metal workpieces have the required mechanical properties, physical properties and chemical properties, besides reasonable selection of materials and various forming processes, heat treatment processes are often essential. Heat treatment generally does not change the shape and overall chemical composition of the workpiece, but imparts or improves the performance of the workpiece by changing the microstructure inside the workpiece or changing the chemical composition on the surface of the workpiece. Its characteristic is to improve the internal quality of the workpiece, and its function is to improve the mechanical properties of the material, eliminate residual stress and improve the machinability of the metal.

AOI (Automated Optical Inspection) is a high-speed and high-precision optical image inspection system. It uses machine vision as the inspection standard technology to improve the shortcomings of traditional manual inspection using optical instruments. The application level includes research and development from high-tech industries, manufacturing quality control, and even national defense, people's livelihood, medical care, environmental protection, electric power, etc., but why do we need AI when we have AOI? Let's find out together.

Metalworking is the production activity of applying various processes to metallic materials to manufacture desired parts, assembly line components or overall large structures. Do you know what metal processing is? The process of metal processing is roughly divided into three categories, namely metal forming, metal cutting and metal joining. This article will give a further introduction to metal cutting.

Machine vision uses the latest artificial intelligence technology to enable industrial equipment to observe and analyze tasks in smart manufacturing, quality control and labor safety, thereby improving product quality, reducing costs and optimizing operations.

Molds are very important to the plastic injection industry. There may be hundreds of sets of molds in a factory, and molds in good condition must be used during production to ensure production quality. In order to be able to grasp the status of the mold at any time, how to manage the mold systematically? The two mechanisms of "Mold Common Modeling Mechanism" and "Mold Management Process" can be used to systematically grasp mold information and achieve the purpose of mold management.

In recent years, customer orders and industrial demand have come and gone faster. Coupled with the impact of the epidemic, changes in orders are more difficult to grasp. At this time, what the manufacturing industry can control itself is all kinds of internal management. Only by doing a good job of management can we be able to respond to various changes at any time. From the perspective of mold management, what important information needs to be controlled?

In recent years, due to the high demand for customized orders and small and diverse production, the production line must frequently replace molds and adjust lines. Mold replacements often take 2 to 3 hours, and production line adjustments may even stop production for a few days, resulting in production delays and making production capacity impossible. 91视频官网 can we effectively replace molds, adjust production lines, reduce downtime, and quickly respond to customer needs?

Engineering plastics refer to a class of plastics that can be used as engineering structural parts because of their low density, high specific strength, excellent wear resistance and low coefficient of friction, high heat resistance, electrical insulation, chemical stability, acid/alkali resistance, and with obvious advantages such as free coloring, easy modification, and good processability, it has been widely used in the fields of automobiles, electronics, electrical, communications, transportation, aerospace, machinery, etc., and has become one of the important symbols to measure a country's industrial development level. Modification of engineering plastics due to the limitation of the performance of a single resin, and people's requirements for low cost, high performance and diversified performance of materials are getting higher and higher, and various modified engineering plastics have emerged as the times require. Engineering plastics can be realized through physical, chemical or a combination of physical and chemical methods, including blending (alloying), copolymerization (grafting), and filling reinforcement. Modification can significantly improve the performance of engineering plastics. In addition, one polymer matrix can be used to produce a variety of products with different uses. The production operation is flexible, and it is easy to realize one machine with multiple functions, and realize the serialization and specialization of products.

In recent years, various industrially advanced countries have used machines to replace manpower for bench work, making the application of machine tools more extensive and important. Although the processing precision of milling machines and grinding machines is superior to that of planers, the price is more expensive than planers. Generally, small and medium-sized factories still use planers for many initial processing tasks in order to take into account equipment investment costs. So what exactly is a planer? Let's take a look together.

The Metaverse has been hotly discussed for several years, and judging by how Meta operates, the world is not yet ready for the concept. This article attempts to explore the necessity of the Metaverse, is it a dream, or a future that must be visited?

As more and more enterprises have accelerated the pace of cloud migration, and the demand for digital transformation and application modernization continues to increase, we expect that multi-cloud deployment will be the mainstream development of enterprise IT in the next 20 years.

The demand for renewable energy is increasing day by day. Faced with the instability of wind energy and solar energy, energy digitization can increase the productivity and availability of green electricity, such as using algorithms and blockchain technology to reduce consumption and improve flexibility.

One of the simplest ways of classification is to classify textiles other than general clothing and home decoration textiles as technical textiles. Let’s see what are so called Technical Textiles.

The upstream of the textile industry chain is the petrochemical raw material. After being manufactured into nylon fiber, polyester fiber, rayon fiber, carbon fiber and other human fiber products, it is spun into yarn, then woven into cloth, and then bleached, dyed, printed, Dyeing and finishing procedures such as coating, finishing, tailoring and sewing into garment products or other related textile products. The textile manufacturing process can be divided into four stages: fiber, textile, dyeing and finishing, ready-to-wear/home textiles, among which textiles can be further divided into two steps: spinning and weaving: spinning is the transformation of roving into spun yarn. After being sent to the factory, the yarn is inserted into the operation axis of the textile machine table, and the textile machine table pulls the yarn upward and sends it to the textile machine; the next step is the weaving step, at this stage, the shuttle is used in the textile machine. It shuttles back and forth continuously, and finally weaves it into a piece of cloth. After finishing the cloth fabric (including cotton, wool, synthetic fiber, etc.) into a box, it can be sent to downstream manufacturers for post-processing to form a textile industry chain.

The word "function" originates from Japan, so it is understandable that functional textiles began in various chemical fiber factories in Japan. In the early days, it was emphasized that new materials produce new functions, often first with relevant fiber function technologies, and then looking for new functional applications. What is the "functionality" of textiles? The most incisive "functional" design is multi-faceted. Functions are related to people themselves and their living environment, including comfortable and healthy functions, leisure and sports functions, safety and protection functions. Contains medical and physiological functions.

Suddenly, everyone was eager to get on the green train. But with sober thinking, perhaps our best practices are just around the corner: eco-friendly fabrics, local manufacturing, and gentle and natural processing. This article will start from three directions: ecological man-made fibers, yarn built-in component addition technology, and environmental protection post-processing, and take stock of the natural resources that can be used in the textile industry.

The three key global trends in 2022 also directly point out the major problems facing the communications industry. In December 2021, the 3GPP standards body reached a consensus on the priority and scope of the 5G Release 18 standard, becoming the first officially recognized "advanced" standard, which will support more device types and use cases in the future. The associated trend of network virtualization is having a huge impact on how wired and wireless networks work together, completely upending existing business models. At the same time, in the fourth year of 5G deployment, it is imperative to invest in the development of the next generation technology (6G).

With the fermentation of the metaverse theme, after the introduction of AI, Internet of Things, digital twin, AR/VR and other technologies in manufacturing smart factories, the pace of human-machine interface (HMI) intelligence is getting faster and faster. Among them, high elasticity, visibility and reliability will be the three major trends of its development.