Latest Articles for Industrial Applications

Robots learn to adapt through vision and imitation techniques, improving usability.

Using logic-based methods to improve chemical process design efficiency and outcomes.

New materials promise better fracture management for various applications.

New methods enhance optimization in complex scenarios using latent spaces and noise.

Explore the fascinating behavior of liquid drops in various fluid environments.

A look into the behavior of liquid filaments during pinch-off in polymers.

Learn about the Quantum Application Score for assessing quantum device capabilities.

Researchers improve CO2 capture efficiency with modified graphene materials.

New insights into EVP fluids for better material applications in various industries.

Quantum simulation offers promising new methods for material exploration and cost savings.

A look at bainite's formation and properties in steel.

New methods improve efficiency in heat and drag management for various applications.

This article examines how particle layers relax after compression.

New benchmark enhances accuracy in detecting tiny defects in products.

New methods in lensless imaging offer high-quality image capture without traditional lenses.

Investigating how surfactants affect fluid flow in superhydrophobic systems.

Exploring the dynamics and challenges of crystallization through nucleation.

CF+ contributes to our understanding of chemistry in space environments.

A fresh framework uses deep learning for integer programming solutions.

New method improves cone-beam CT imaging efficiency and quality.

This research examines how boron impacts hydrogen behavior at grain boundaries in steel.

Discover how fluid properties influence complex patterns in Hele-Shaw flow experiments.

Exploring fluid interactions and their impact on various applications.

Researchers use speculative decoding to enhance speed and efficiency in chemical predictions.

Explore the intricacies of the dip-coating process and its significance in various industries.

Research explores cavitation in rubber, enhancing product durability through better material composition.

Soot impacts climate through its unique behavior in the atmosphere.

Using flexible polymers in chromatography improves separation efficiency and flow stability.

HANNA offers a new method to predict activity coefficients in chemical mixtures.

A look into the behavior of binary fluid mixtures and their turbulence.

New methods enhance fluid flow calculations in various industries.

New deep learning method improves pore defect analysis in metal powders.

A look into the behavior of charged colloidal mixtures and their properties.

Research reveals how low-viscosity fluids stretch and flow, impacting industry applications.

This article discusses the significance of detecting anomalies in time-series data across industries.

UNIFAC 2.0 enhances predictions of chemical mixtures using advanced techniques.

Examining how size and density affect particle travel in water currents.

This research reveals how carbon influences ordering in iron-carbon alloys.

An exploration of bubble movement affected by temperature and surfactants in unique fluids.

Implementing multi-agent reinforcement learning to manage Rayleigh-Bénard convection.