Weihao Magnesium Powder

  On December 24, 2025 , the 2025 Additive Manufacturing Industry Development Forum and Annual Conference , jointly organized by the Equipment Industry Development Center of the Ministry of Industry and Information Technology (MIIT)  and the Administrative Committee of Xiong’an New Area, Hebei Province , and hosted by the China Additive Manufacturing Industry Alliance  and other organizations, was successfully held in Xiong’an New Area. During the opening ceremony and main forum, the conference officially released the “2025 List of High-Quality Additive Manufacturing Products.” The WE43 magnesium alloy powder for additive manufacturing , independently developed and produced by Tangshan Weihao Magnesium Powder Co., Ltd. , was selected based on its outstanding material performance and stable manufacturing process, becoming the only magnesium alloy material  included in this year’s list. This recognition signifies that Tangshan Weihao’s technological capabilities and pr...

Technology drives progress — and advanced materials make it possible. Tangshan Weihao Magnesium Powder has been awarded Third Prize in the 2025 Qian’an Innovation & Entrepreneurship Competition for breakthroughs in high-performance magnesium materials. From aerospace lightweight structures to biomedical implants and consumer electronics, our atomized spherical magnesium powders deliver high sphericity, low oxygen, excellent flowability, and outstanding stability for metal AM and PM processes. Learn how magnesium materials are powering the next era of advanced manufacturing. Contact us for more application cases and technical support. 📩 info@tswhmf.com 🌐 www.tswhmf.com

Different 3D printing processes require different metal powder sizes. Here’s a fast breakdown: • SLM / DMLS: 15–45 μm • Binder Jetting: 15–53 μm • Metal FDM: 5–22 μm • Cold Spray: 5–50 μm • EBM: 45–105 μm • DED / LENS: 50–150 μm Selecting the correct particle size is critical for flowability, laser absorption, layer stability, and final part quality. Tangshan Weihao offers custom atomized spherical magnesium alloy powders engineered for AM — high sphericity, low oxygen, and excellent stability. Learn more at www.tswhmf.com Contact: info@tswhmf.com

High sphericity. Uniform particles. Smooth flow. Tangshan Weihao’s atomized spherical magnesium powder is designed for high-performance PM and additive manufacturing. It delivers stable feeding, higher yield, and improved part quality in both PM components and AM lightweight structures. Want more application cases? Visit www.tswhmf.com  or contact info@tswhmf.com .

Solve Flowability Issues in Powder Metallurgy Uniform particles. High sphericity. Excellent flowability. Tangshan Weihao’s atomized spherical magnesium powder is engineered for efficient powder metallurgy production. With high bulk density and stable flow, it delivers better mold filling, higher yield, and consistent part quality. Want technical data or samples? Visit www.tswhmf.com  or contact info@tswhmf.com

 In the field of medical implants, researchers continue to face a critical challenge: How can we design materials that provide sufficient mechanical support, offer excellent biocompatibility, and degrade safely inside the human body—without requiring a secondary surgery? Traditional permanent metallic implants, such as titanium and stainless steel, often cause long-term complications including stress shielding, chronic inflammation, and the release of harmful metal ions. On the other hand, polymer-based biodegradable materials lack the mechanical strength needed for long-term load-bearing applications. These limitations have led to the rapid rise of magnesium (Mg) and magnesium alloys as one of the most promising biodegradable metal materials for orthopedic, cardiovascular, and multi-disciplinary medical implants. Industry Challenge: Fast Degradation & Limited Antibacterial Performance Despite their unique advantages—low density, elastic modulus similar to cortical bone,...

At Tangshan Weihao, our atomized spherical magnesium powder is engineered for high-performance forming applications. With uniform particle size, excellent flowability, and high tap density, it supports stable and precise production across MIM and Thixomolding processes. These powder characteristics ensure: • More uniform mold filling • Higher part density • Improved dimensional accuracy • Better consistency for complex or thin-wall components If you’re exploring magnesium materials for lightweight structures or precision parts, we’d be happy to support your trials. 💬 Leave a comment and we will arrange sample testing for you. 📩 Contact us: info@tswhmf.com 🌐 Learn more: www.tswhmf.com

  Magnesium and Bone Regeneration — Where Material Science Meets Immunology The immune system plays a crucial role in bone healing — regulating inflammation, promoting angiogenesis, and balancing osteoblast and osteoclast activity. Recent studies have revealed that magnesium ions (Mg²⁺) not only support bone mineralization but also modulate the immune microenvironment , guiding bone regeneration through complex biological signaling. Research led by Prof. Qin Ling ( Nature Medicine, 2016 ) and Prof. Kelvin Yeung ( Nature Communications ) demonstrated how magnesium-induced TRPM7 and NF-κB signaling pathways influence macrophage activity — achieving early-stage osteoimmunomodulation while requiring precise Mg²⁺ control during remodeling. Further studies published in Small highlighted the Mg²⁺–HIF-1α–TGF-β axis , showing how magnesium drives dendritic cell polarization and Treg formation, creating a favorable immune environment for bone healing. 💡 Clinically, the magnesium-c...

 In the era of intelligent and lightweight manufacturing, metal additive manufacturing (3D printing) is reshaping modern industries. At the heart of this technology lies metal powder , the critical material that determines the strength, precision, and performance of the final part. T angshan Weihao Magnesium Powder Co.,Ltd . ( www.tswhmf.com ) is a global leader in atomized spherical magnesium powder and magnesium alloy powder . In this article, we explore the top 10 commonly used metal powders for 3D printing and their key industrial applications.   1. Stainless Steel Powder Composed mainly of iron, nickel, and chromium, stainless steel powder offers excellent corrosion resistance and strength . Applications: Automotive, aerospace, energy, and medical devices. It is widely used for engine components, exhaust systems, and structural parts requiring durability and corrosion resistance.   2. Titanium Alloy Powder Titanium alloy powder, typically a blend...

  1. Magnesium Alloys: The Core of Lightweight Robotics Magnesium alloy powder is becoming an essential metal for robotics manufacturing, thanks to its lightweight, high strength, and superior thermal conductivity. In industrial and humanoid robots, magnesium alloys are widely used in joint housings, transmission systems, skeleton structures, and sensor mounts. By applying atomized spherical magnesium powder, these parts achieve 30 – 40% weight reduction without compromising strength, significantly improving energy efficiency and motion response. 2. Semi-Solid Injection Molding: A Breakthrough in Structural Lightweighting Semi-solid injection molding is one of the key applications of magnesium alloy powder. This process controls the slurry forming temperature at around 580 ° C, achieving: ⚙️ Wall thickness below 0.6 mm for high-precision components 💡 Porosity lower than 0.1%, resulting in improved density ⚡ 30% lower energy consumption, supporting green manu...