The demand for high-precision, custom-made ceramic parts has increased as global industries, from semiconductors to medical equipment, raise their performance standards. In this environment, advanced ...

Strategic AI-driven QE can be the key to accelerating delivery, strengthening reliability and maintaining market velocity.

PV module defects are increasing as manufacturers struggle to achieve consistent quality through robust bill-of-materials and process controls.

Rajesh Patil and Professor Magnus Löfstrand have developed an AI system that detects welding defects, reduces material waste, ...

Here's how AI-driven, agentic systems are reshaping software quality engineering, and what organizations can do to prepare for this next era of QE.

Excellent electromagnetic wave absorption is realized via the synergistic design of a dual-phase heterostructure, defect engineering, and magnetic loss modulation. The spinel/rock salt interface ...

Some fabs build consumer chips that sit inside phones and laptops. Others build chips that must survive in orbit, under the Arctic ice, or deep beneath the Earth’s surface. Fabs serving defense, ...

System reliability and safety are paramount across industries such as semiconductors, energy, automotive, and steel, where even microscopic cracks or defects within structures can critically affect ...

Abstract: BaTiO 3 (BTO) is a promising candidate for multi-functional memristive devices, exhibiting outstanding ferroelectric behaviour and a high resistance contrast. The modulation of resistive ...

Using custom-designed devices and precision measurement techniques, the researchers uncovered an unconventional scaling law that achieves a "two birds with one stone" outcome: Defect engineering ...

A recent review article published in Advanced Materials explored the potential of artificial intelligence (AI) and machine learning (ML) in transforming thermoelectric (TE) materials design. The ...