MORPHO project demonstrates blade with 20% faster RTM cure cycle, uses AI-based monitoring for improved maintenance/life ...

Unlock the secrets of climate-specific, resilient design with hygrothermal modeling—a powerful, data-driven approach that replaces guesswork with precise analysis for smarter building envelope ...

Modern robotic systems—in drones or autonomous vehicles, for example—use a variety of sensors, ranging from cameras and accelerometers to GPS modules. To date, their correct integration has required ...

In a new study, published in Reports on Progress in Physics, researchers from LLNL demonstrate a model that can reproduce and explain delta-plutonium's thermal behavior and unusual properties.

This study endeavors to establish a numerical method to simulate gouging while devising a rationale for thermal cutting processes. The model was validated by comparing computational and experimental ...

Traditionally, thermal management in LFAM has relied heavily on guesswork, often leading to costly build failures, material waste, and significant production delays. The Finite Element Thermal ...

Highway Lane Changing Scenario following Indian Traffic Rules This project simulates a two-lane highway scenario using MATLAB's Automated Driving Toolbox. It demonstrates vehicle creation, lane ...

The thermally conductive composite PDMS/flake graphite and thermal insulation composite PDMS/hollow glass microsphere are formulated to offer satisfactory thermal and mechanical properties. As a ...

The automotive thermal management pressure sensors market will reach $2.17 Billion by 2034 from $1.21 Billion in 2024, growing at a CAGR of 5.16% during the 2025-2034.

Considering the poor model construction ability of the current bucket strength and fatigue simulation method of industrial hydraulic excavator, which leads to the large difference between the ...