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What Are the Main Applications of Tungsten? 3

Tungsten is widely used in a variety of fields due to its exceptional hardness, wear resistance, high temperature resistance, corrosion resistance, and high density. Tungsten’s uses include: Cemented carbide: Used in the manufacture of cutting tools, drills, molds, milling cutters, and wear-resistant parts such as cemented carbide inserts; cutting tools and molds, including turning tools, reamers, wire drawing dies, extrusion dies, and stamping dies, are widely used in metalworking, precision casting, and plastic molding. Aerospace components: Used in the manufacture…

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What Is Tungsten? 9

Tungsten is a silvery-gray transition metal with the element symbol W and atomic number 74. It has a high melting point (3422°C), high density (19.35 g/cm3), high hardness, and excellent high-temperature resistance. It is widely used in aerospace, defense, electronics, electric light sources, and cemented carbide. Many physical properties of tungsten vary significantly with temperature (especially thermal conductivity, resistivity, and specific heat capacity). Reference values/ranges at or near room temperature are provided below, with temperature dependence noted in the notes.…

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Performance Comparison of Tungsten Resin and Lead 6

Tungsten resin is a composite material made from high-purity tungsten powder and polymer resin, renowned for its high density, eco-friendliness, and processing flexibility. Lead, as a traditional high-density material, has long been used in industrial, medical, and sports applications due to its low cost and good ductility. However, with growing concerns over environmental regulations and health safety, tungsten resin is increasingly replacing lead. I. Density and Weight Tungsten resin has a density range of 11-18 g/cm3, adjustable by varying tungsten…

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Applications of Tungsten Resin in Sports Equipment 6

Tungsten resin (Tungsten Resin) is a composite material made from high-purity tungsten powder combined with various resins (such as polypropylene, polyurethane, or thermoplastic materials). This material blends tungsten’s high density and radiation shielding capabilities with the flexibility, processability, and eco-friendly properties of resin, making it an ideal substitute for traditional lead materials. In the sports equipment sector, tungsten resin is primarily used for counterweights, balancing, and protective components, especially in scenarios requiring small volume, high weight, flexible molding, and non-toxicity.…

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Applications of Tungsten Resin in the Nuclear Industry 30

As an advanced composite material, tungsten resin is increasingly valued in the nuclear industry. This material combines the unique properties of tungsten with the flexibility of resin, forming an efficient and reliable solution suitable for nuclear environments requiring high protection and durability. In radiation shielding, tungsten resin plays a central role. The nuclear industry involves significant radiation exposure, such as rays generated during reactor operations, fuel processing, and waste management. Tungsten resin is manufactured into shielding panels, containers, or casings…

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Applications of Tungsten Resin in the Medical Field 16

As a novel composite material, tungsten resin is increasingly widely used in the medical field. This material combines the excellent properties of tungsten with the flexibility and ease of processing of resin, creating an efficient and environmentally friendly solution. In radiation protection, tungsten resin plays a key role. Medical imaging equipment such as X-ray machines and computed tomography scanners often involve radiation exposure, and tungsten resin can serve as a shielding layer to effectively block harmful rays. It is manufactured…

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What Are the Uses of Tungsten Resin? 52

Tungsten resin, leveraging its high density, non-toxicity, radiation shielding capability, and processing flexibility, finds wide-ranging uses in medical, defense, industrial, civilian, and emerging technology fields. 1. Radiation Protection in Medical Fields Tungsten resin’s high density and excellent radiation shielding performance make it widely used in medical equipment. It effectively absorbs X-rays and gamma rays, offering higher shielding efficiency than lead while being non-toxic, aligning with green environmental requirements. Common applications include: CT scanners and X-ray machines—used to manufacture shields and…

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What Are the Characteristics of Tungsten Resin? 41

Tungsten resin is a composite material made by mixing high-purity tungsten powder with polymer resins (such as epoxy, polyurethane, or polyethylene). It is widely used in defense, medical, industrial, and environmental fields, thanks to its unique physical, chemical, and processing characteristics. 1. High Density and Adjustability The most notable characteristic of tungsten resin is its high density, typically ranging from 8.0 g/cm3 to 11.0 g/cm3, close to lead but with a more compact volume, making it suitable for space-constrained applications.…

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What Is Tungsten Resin? 45

Tungsten resin, also known as tungsten polymer composite material or tungsten-filled resin, is a novel polymer composite material. It is primarily made by mixing high-purity tungsten powder with polymer resins (such as epoxy, polyurethane, or thermoplastic resins) in specific ratios and through specialized processes. This material combines the unique physical properties of tungsten (such as high density and radiation resistance) with the processing flexibility of resins, resulting in a non-toxic, environmentally friendly, and easily moldable material. The performance of tungsten…

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Application Fields of Tungsten Alloy Fasteners 38

In contemporary industrial connection systems, tungsten alloy fasteners serve as high-performance connecting elements, playing a pivotal role and regarded as core components in materials engineering. Their exceptional performance stems from the inherent properties of tungsten and the optimization of other metal elements. Firstly, their high density ensures efficient weight distribution and connection stability within a limited volume. In terms of mechanical strength and hardness, the alloying process enhances the fasteners’ tensile strength and fatigue resistance through solid solution strengthening and…

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