Resources

In a crowded lab furniture market, many suppliers position themselves as manufacturers—focused on producing and shipping standard products quickly and cheaply. But today’s laboratories are more complex. They need spaces that support workflow efficiency, safety compliance, equipment integration, and future expansion. That’s why we choose to be a lab furniture solution provider, not just a manufacturer. From early-stage consultation, space planning, CAD layouts and 3D renderings to on-site coordination and post-installation optimization, we deliver end-to-end solutions that help labs work smarter, safer, and more sustainably. We’re not simply building furniture—we’re building better work environments for science.

MAX LAB is a professional laboratory furniture and equipment manufacturer integrating design, manufacturing, and global sales. Relying on one of the largest laboratory production bases in Guangzhou, China, MAX LAB is committed to providing high-quality, innovative, and customized laboratory solutions for scientific research institutions, educational organizations, medical facilities, and industrial enterprises worldwide.

Our product range includes laboratory furniture, fume hoods, laboratory ventilation systems, safety equipment, and intelligent laboratory control systems. Guided by the core philosophy of “Innovation, Quality, and Service”, MAX LAB focuses on creating efficient, safe, intelligent, and environmentally friendly laboratory environments. With years of industry experience, advanced manufacturing capabilities, and a global service network, MAX LAB has become a trusted partner for laboratories around the world.

Explore the vital differences between chemistry and electronics lab benches, and discover why ESD-safe, ergonomic electronics benches from Guangzhou Max Laboratory Equipment elevate lab performance.

In cleanrooms, contamination control starts at the entrance. This blog explains what a cleanroom air shower is and why it’s a critical transition zone between uncontrolled areas and cleanroom environments. It covers how air showers use high-velocity HEPA/ULPA-filtered air to dislodge particles from personnel or equipment, how contaminated air is exhausted through vents, and how a typical 10–30 second cycle helps protect cleanroom integrity. You’ll also learn key features (interlocking doors, automated sensors, corrosion-resistant construction), common air shower types (personnel, material, tunnel, cargo, customized), and where they’re used across pharmaceuticals, semiconductors, medical devices, and sterile facilities—plus how MAX LAB supports compliant, high-performance installations.

Designing or upgrading a laboratory is not simply about purchasing workbenches or storage cabinets—it is about creating a functional, safe, and efficient working environment that supports specific experimental activities. Different laboratory types—chemistry, biology, physics, school teaching labs, and university research facilities—have unique requirements for safety standards, material durability, storage, ventilation, and ergonomics.

In this article, we provide a comprehensive guide to laboratory furniture configurations, analyzing the rationale behind each choice, industry best practices, and material recommendations.

Proper storage of flammable and hazardous chemicals isn’t optional—it’s a safety and compliance requirement in labs, manufacturing plants, and research facilities. This blog explains how to choose the right explosion-proof (flammable safety) cabinet, covering what these cabinets are designed to do, the construction features that matter (double-wall steel, self-latching doors, spill sump, ventilation ports), how to match cabinet types to chemical categories, what certifications to look for (e.g., OSHA, NFPA, CE, FM), and the installation and maintenance practices that keep your site compliant long-term.

A pass box (transfer hatch) is a controlled enclosure that enables safe material transfer between cleanroom zones without compromising ISO-classified air quality. This guide explains what pass boxes are, compares static and dynamic models (including UV, laminar flow, and air shower types), and provides a practical selection framework based on cleanroom class differences, industry requirements, and compliance needs.

When chemical reagents are stored properly, it not only reduces the risks of leaks, incompatible chemical reactions, and personnel exposure, but also extends shelf life, improves lab management efficiency, and helps your facility comply with safety standards such as OSHA and NFPA.

This article explains the key principles of safe chemical reagent storage, introduces common types of chemical storage cabinets (flammable, corrosive, acid & alkali, and toxic/hazardous material cabinets), and highlights the must-have features to consider when selecting the right solution—ventilation, locking mechanisms, spill containment, corrosion-resistant materials, and adjustable shelving. It also provides practical tips for organization and routine maintenance to help your lab build a safer, more compliant, and more efficient chemical storage system.

Discover why MAX LAB stainless steel laboratory countertops are the top choice for safety, durability, and performance. Learn about material options, maintenance tips, and how they outperform other lab work surfaces.

Welcome to our comprehensive Laboratory Furniture Installation Guide. Whether you’ve just received your custom-built lab benches, storage cabinets, or complete steel and wood lab systems, this guide is designed to walk you through the installation process from start to finish.

The lab benchtop is important, but the factor that truly determines load capacity, safety, comfort, and long-term expansion costs is often the support structure underneath. C-frame and H-frame designs are the two most common lab bench frames—one prioritizes flexibility and open space, while the other focuses on stability and heavy-duty support.

This article compares the pros and cons of C-frame and H-frame benches across structural design, space utilization, equipment load requirements, utilities integration, retrofit potential, and typical applications. It also includes a quick selection checklist to help you choose the right bench support structure based on your lab layout, equipment weight, and future expansion plans.

In any modern laboratory, maintaining clean air and a safe working environment isn’t just a best practice—it’s a necessity. That’s exactly why a fume extractor is essential.

In this guide, we explain why a fume extractor may be one of the smartest investments you can make for your lab this year—and how to choose the right model.

Unlock the 2026 blueprint for laboratory safety. This guide explores ANSI Z358.1 compliance, seamless integration with science laboratory furniture, and IoT-driven maintenance to reduce TCO and audit risks.

Many “abnormal” lab results are caused by poor specimen handling—not the patient’s condition. This in-depth guide explains which laboratory tests require special handling, why specimens are sensitive, and how to control temperature, time, light, packaging, and biosafety. You’ll also learn how a specimen-friendly lab setup (receiving, storage, wet area, ventilation) reduces errors and improves quality.

Maximize sterility with MAXLAB’s expert guide to laminar flow cabinets. Compare vertical vs. horizontal models, HEPA filters, and safety protocols to optimize your 2026 lab ROI.

Durable laboratory cabinets tailored for project integrators, ensuring reliable delivery, modular design, and smooth coordination in turnkey laboratory projects.