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Forgecise Metal 3D Printing Enables Topology Optimization and Rapid Manufacturing of Automotive Suspension Control Arms

Forgecise Metal 3D Printing Enables Topology Optimization and Rapid Manufacturing of Automotive Suspension Control Arms

Leave a Comment / Application Case, Automotive Case, Company News /

Release Date: 2026-04-10 In today’s automotive industry, where the pursuit of peak performance and green, low-carbon manufacturing is paramount, the chassis suspension system—the “skeleton” connecting the wheels to the body—plays a decisive role in a vehicle’s handling stability, ride comfort, and energy efficiency. As a critical load-bearing component within this system, the suspension control arm

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Beyond Repair How Laser Cladding is Revolutionizing the Manufacturing of Complex Titanium Aero-Engine Parts

Beyond Repair: How Laser Cladding is Revolutionizing the Manufacturing of Complex Titanium Aero-Engine Parts

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Release Date: 2026-04-10 In the high-stakes world of aerospace engineering, every gram of weight and every hour of production time matters. Traditional manufacturing methods for complex parts like aero-engine casings—often involving forging a massive block of expensive titanium and then machining away up to 90% of it—are incredibly wasteful and slow. A new technical report

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Beyond Repair How Laser Cladding is Revolutionizing the Manufacturing of Complex Nickel-Based Aero-Engine Parts

Beyond Repair: How Laser Cladding is Revolutionizing the Manufacturing of Complex Nickel-Based Aero-Engine Parts

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Release Date: 2026-04-10 In the demanding realm of aerospace engineering, where performance at extreme temperatures is non-negotiable, nickel-based superalloys like GH4169 (the Chinese equivalent of Inconel 718) are the material of choice for critical hot-section components. However, their exceptional strength and heat resistance come at a cost: they are notoriously difficult and expensive to machine. A new

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Beyond Density: Why More Energy in 3D Printing Can Make Your Stainless Steel Weaker

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Release Date: 2026-04-10 In the world of metal additive manufacturing (AM), a common mantra is “maximize density.” After all, a part full of pores is a weak part. But what if your part is already nearly perfect—over 99.5% dense? Does that mean you’ve unlocked its best possible performance? A fascinating new study on 316L austenitic stainless

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Deep Analysis of Selective Laser Melting Formed 24CrNiMo Alloy Steel Process-Microstructure-Property Relationships

Deep Analysis of Selective Laser Melting Formed 24CrNiMo Alloy Steel: Process-Microstructure-Property Relationships

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Release Date: 2026-04-10 Selective Laser Melting (SLM), as a high-precision metal additive manufacturing technology, is gradually expanding from titanium alloys and superalloys to a wider range of engineering alloys. A recent study published in Chinese Journal of Lasers systematically investigated the effects of SLM process parameters on the microstructure and mechanical properties of 24CrNiMo alloy steel (a critical material

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Forgecise Successfully Printing a High-Performance Centrifugal Impeller Using SLM Technology

Additive Manufacturing: Successfully Printing a High-Performance Centrifugal Impeller Using SLM Technology

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Release Date: 2026-04-03 In the realm of high-end manufacturing, transforming a complex, topology-optimized design into a physical reality is the ultimate test of a manufacturing process. Forgecise provides an excellent case study, demonstrating how to overcome numerous challenges using Selective Laser Melting (SLM) technology to successfully produce a lightweight, high-strength, monolithic centrifugal impeller. Design Objectives

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Forgecise Metal 3D Printing Reshapes High-Performance Brake Caliper Manufacturing

Forgecise Metal 3D Printing Reshapes High-Performance Brake Caliper Manufacturing

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Release Date: 2026-04-03 In the competitive arena of motorsport and high-end automotive industries, the braking system is the key to victory and safety. As the core actuator of the braking system, the performance of brake calipers directly affects the vehicle’s deceleration capacity, thermal management efficiency, and overall unsprung mass. Traditionally, high-performance brake calipers are usually

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