Powder coatings were developed in the 1950s as an alternative to traditional finishes such as liquid coatings. While the versatility and appeal of liquid coatings isn't likely to disappear anytime soon, powder coatings offer many advantages and are growing in popularity.
CBN turning tools are tightly sintered from boron nitride and tungsten carbide bases. The hardness of boron nitride is next to PCD. It has excellent chemical stability and will not produce affinity with iron, cobalt, and nickel-based metals. Therefore, it is especially suitable for work hardening steel, with a hardness above HRC45. Chilled cast iron and heat-resistant steel (Inconel) are also suitable.
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.
Slotting machines are reciprocating machines that are mainly used to manufacturing horizontal, vertical or flat surfaces.
Supply chain carbon emissions are 11.4 times greater than operational carbon emissions. Therefore, if companies are to move towards net zero, the effectiveness of supply chain carbon reduction will be an important key. However, supply carbon reduction faces two major problems: inconsistent calculation methods and low data transparency.
Due to the outbreak of COVID-19 and its rapid global spread, the global auto parts, semiconductor, and electronics industries have been exposed to highly uncertain risks. Global supply chain logistics is an issue that everyone has had to reexamine.
With technological progress and industrial restructuring, the cement industry is actively introducing a circular economy and has become an international pioneer in net-zero carbon emissions through alternative fuels, alternative raw materials, waste heat power generation, green power development, and carbon capture technologies.
With the pressure of international net-zero emissions and the clarion call for carbon tariffs in Europe and the United States, countries have formulated relevant policies to devote themselves to energy conservation and carbon reduction.
With the development of weapons, machinery, and chemical industries, pneumatic tools have been widely used and developed.
The growth of the overall global biotech pharmaceutical market is slowing down. Europe and the United States have entered a mature period, and global development in the overall biotech pharmaceutical industry market has slowed down in recent years.
Countries are actively developing heavy industries, manufacturing, and infrastructure to drive market growth, but they often pay environmental costs accordingly. Approximately 70% of global greenhouse gas emissions come from infrastructure construction and operations, such as power plants, buildings, and transportation. What will be the effect of promoting society's emphasis on low-carbon manufacturing?
In the trend of industrial automation, motion control is a key part of it. Automating operations through machines can avoid a lot of human error, and can also speed up production efficiency and efficiency. How to make the machine act according to the command is the application category of machine motion control.
The emergence of automation has had a great impact on many industries. Many highly repetitive factory operations may restrict production capacity. With the introduction of Industry 4.0, various technologies have led to the automation of production lines, from the supplying of raw materials, to assembly, distribution, and packaging. People are taking notice of these very important developments, and this article will explore some of these new forms of automation, and the value they bring.
Hyperautomation is the use of the power of multiple technologies to achieve end-to-end automation. Hyperautomation is the process of continuously integrating automation into an organization's business processes, combining advanced technologies such as robotic process automation (RPA), artificial intelligence, and machine learning to enhance the results of human work. Not only does it automate key processes, but it also builds an automation ecosystem that finds more processes that can be automated without human intervention.
The world has entered the era of Industry 4.0. robots assist human manufacturing, emphasizing the use of "human-machine collaboration" to move toward smart production. In recent years, the population aging problem faced by developed countries has caused the production costs of industry and manufacturing to increase year by year. Enterprises have deployed automation equipment to improve production efficiency. Various industries have also undergone tremendous changes in this intelligent wave.
Green Manufacturing, also known as environmentally conscious manufacturing, is a manufacturing model that considers environmental impact and benefits.
Additive manufacturing is playing an increasingly important role in the manufacturing industry and is mainly used in toolmaking and prototype construction.
Advanced manufacturing is the use of innovative technologies to improve products or production processes. Related technologies are called "advanced", "innovative" or "frontier". Advanced manufacturing technology is gradually maturing, integrating innovative technology into products and manufacturing processes to enhance competitiveness and increase value.
Rotary broaches (also known as oscillating or hexagonal broaches) are one of the commonly used CNC tools in metal-cutting production. It is used to process polygonal parts and inner holes (especially suitable for blind holes) and other special-shaped inner holes.
In the field of manufacturing processing, common processing methods include broaching, boring, grinding, milling, etc.