Latest Articles for Industrial Applications

A new method enhances fluid surface measurement using digital holography.

Examining how ring polymers behave and change viscosity under different conditions.

A breakthrough model improves understanding of fluid interactions in deformable porous media.

Study reveals how defects shape metallic glasses' behavior with temperature changes.

A look at combining PID and ADRC to improve control systems.

Learn how turbulence affects various natural and industrial processes.

Exploring how liquids interact with surfaces impacts various industries.

Innovative approaches using DMD and GAN enhance modeling of shock-induced pore collapse.

This study reveals the intricate behaviors of metallic glasses during their transition phase.

Block copolymers showcase unique properties shaped by their molecular structures and arrangements.

Explore bacterial cellulose's role in biofilms and its implications for various fields.

A new method reveals how amorphous solids respond to stress and aging.

This paper discusses enhancing multi-stage MPC efficiency using an adaptive horizon approach.

A novel framework improves accuracy and efficiency in modeling binary-fluid interactions.

A new framework enhances data augmentation for better anomaly detection.

A new method enhances simulations of two-phase fluid interactions for industrial applications.

A detailed look into turbulence behavior in complex plasmas and its significance.

A study on how power-law fluids behave in trapezoidal cavities under different conditions.

Robots utilize whole-body exploration with virtual agents for better data collection.

Efficiently detect anomalies without labeled data using nonlinear manifold learning.

Understanding the microlayer's role in efficient heat transfer during nucleate boiling.

Explore how surfactants affect surface waves in liquid films.

New insights into Faraday waves reveal complex fluid dynamics in Hele-Shaw cells.

Explore how tracer particles reveal behaviors in granular suspensions and their applications.

This article examines how surfactants influence droplet merging in various applications.

Snowflake polymers show promise in medicine and material design due to their unique structure.

Learn how materials shift from flowing to rigid states under stress.

Hall-plates are critical in measuring magnetic fields and enhancing sensor performance.

Analyzing how shear forces influence droplet creation in various industries.

New methods improve understanding of zeolite interactions with water.

Examining how granular materials change under stress and flow conditions.

Examining how droplets react in shear flows and their practical applications.

Explore how non-Newtonian fluids behave under stress and their industrial applications.

Recent progress in producing high-energy electrons using powerful lasers opens new applications.

This study examines how micrometer-sized particles stick to surfaces in hydrogen plasma.

A new method improves fluid interaction modeling in various applications.

A new technique in laser technology allows for high-speed precision in various applications.

A look into the Bernoulli problem and its relevance in fluid behavior.

A new method promises accurate temperature measurements without frequent recalibrations.

This article discusses how AMRs track objects and predict collisions using Lidar.