3D Printing of Elastic Lattice Structures: A Revolutionary Technology for Material-Structure Collaborative Design

3D Printing of Elastic Lattice Structures: A Revolutionary Technology for Material-Structure Collaborative Design

3D printing of elastic lattice structures represents a cutting-edge breakthrough at the intersection of materials science and additive manufacturing technology. By utilizing programmable geometric topology and anisotropic design, it achieves a continuous variation in mechanical properties from 1 kPa to 300 kPa in different regions of a single material, providing revolutionary solutions for innovative products … Read more

Shaping the Future of Chips: Innovations in Semiconductor Manufacturing with 3M Material Science

Shaping the Future of Chips: Innovations in Semiconductor Manufacturing with 3M Material Science

Click on the “Semiconductor New Materials Industry” at the top to find like-minded individuals on the industry journey From smartphones to data centers, semiconductors are at the core of modern life. Today, with the exponential growth of artificial intelligence applications, high-performance computing and advanced storage are driving a new wave of demand for semiconductor chips—while … Read more

Professional Analysis of Material Science: From Chips to New Energy, Material Science Defines the Future!

Professional Analysis of Material Science: From Chips to New Energy, Material Science Defines the Future!

The material science major includes23 disciplines, specifically:Material Science and Engineering, Materials Physics, Materials Chemistry, Metallurgical Engineering, Metal Materials Engineering, Inorganic Non-metallic Materials Engineering, Polymer Materials and Engineering, Composite Materials and Engineering, Powder Materials Science and Engineering, Gem and Material Technology, Welding Technology and Engineering, Functional Materials, Nanomaterials and Technology, New Energy Materials and Devices, Materials … Read more

Single-Component Elastic Resin Can Do It! A New Company Emerges in the 3D Printing Shoe Sector

Single-Component Elastic Resin Can Do It! A New Company Emerges in the 3D Printing Shoe Sector

From insoles to complete shoes, iSUN3D takes a crucial step forward. The factor that has always determined the “ceiling” of 3D printed shoes is not the equipment, but the materials. In the past, whether it was DLP photopolymer resin or FDM thermoplastic filament, materials have always been the core factor limiting the application of 3D … Read more

New Quantum Sensor Achieves Single-Atom Level Detection, A Breakthrough in Material Science

Significant progress has been made in physics research. The Max Planck Institute in Germany has successfully developed the world’s most sensitive quantum sensor, achieving detection precision at the single-atom level, which will bring revolutionary changes to fields such as material science and biomedicine. This new type of sensor is based on nitrogen-vacancy centers in diamonds … Read more

The Landscape of 3D Printed Footwear

The Landscape of 3D Printed Footwear

3D printed shoes are an emerging footwear technology. In recent years, with the maturation of 3D printing technology and advancements in materials science, their application scope and market acceptance have continuously increased. The related landscape is as follows: Technology Research and Innovation – Printing Process Upgrades: The printing methods have evolved from early single printing … Read more

Applications of Conductive Fibers in Flexible Fabric Pressure Sensors

Applications of Conductive Fibers in Flexible Fabric Pressure Sensors

Platform URL https://eureka.zhihuiya.com/home?from=KOC_XianjinGNCL With the rapid development of the Internet of Things (IoT), wearable technology, and human-computer interaction interfaces, flexible electronic devices, especially fabric-based sensors, are becoming the focus of research and commercial applications. Conductive fibers, as the core material for constructing such devices, endow traditional textiles with the ability to perceive and respond to … Read more

New Breakthrough in 3D Printed TPMS Structures! Mechanical Performance Comparison of Rigid PLA and Flexible TPU, Gyroid Structure Emerges as the ‘Stability King’

New Breakthrough in 3D Printed TPMS Structures! Mechanical Performance Comparison of Rigid PLA and Flexible TPU, Gyroid Structure Emerges as the 'Stability King'

When it comes to lightweight and high energy-absorbing structures, you might think of automotive crash beams, sports protective gear, or even biomedical implants. Behind these scenarios, a structure known as “Triply Periodic Minimal Surface (TPMS)” is gradually becoming a research focus. A recent study published in Thin-Walled Structures (Volume 217, 2025) deeply explores the “material-topology-orientation” … Read more

Bioinspired Strategies for High-Sensitivity Pressure Sensors

Bioinspired Strategies for High-Sensitivity Pressure Sensors

Click the blue text above to subscribe with one click. Generally, the high sensitivity and wide detection range of pressure sensors cannot be achieved simultaneously. For example, introducing layered microstructures on the surface of flexible materials can effectively enhance the sensitivity of pressure sensors, but due to the limited compressibility of microstructures, high sensitivity can … Read more

Breaking World Record! China’s New 3D Printing Technology Produces ‘Universal’ Fatigue-Resistant Titanium Alloy

Breaking World Record! China's New 3D Printing Technology Produces 'Universal' Fatigue-Resistant Titanium Alloy

On August 29, the China News Service reported that a research team from the Institute of Metal Research, Chinese Academy of Sciences, has recently developed a new post-processing technology for 3D printing (also known as additive manufacturing), producing a titanium alloy material acclaimed for its ‘universal’ fatigue resistance, setting a new world record for the … Read more