"biodegradable"

Supplier: Showa

The SHOWA CN741 features a high level of chemical resistance. At 380 mm in length, the glove is designed with a grip wave pattern to ensure a secure grip during use, even in challenging conditions. The interior of the glove incorporates innovative technology. The flocking particles help to distribute moisture, making it easier to put on and take off the gloves even after extended wear. The SHOWA CN741 also features Eco Best Technology, making it a biodegradable glove.

Supplier: Goodfellow

The Polylactic Acid Biopolymer Coil is a biodegradable plastic offered in 10 variations which can be customized to meet specific thickness, width, diameter and spool size requirements. The high strength, flexibility, and transparency of polylactic acid make it useful for food packaging, 3D printing, and biomedical applications like sutures and tissue scaffolds. This eco-friendly alternative to petroleum-based plastics continues to enable innovative solutions across industries.

Supplier: Goodfellow

BioHastalex® is a nanocomposite copolymer based on functionalized graphene oxide covalently bonded to a special version of a polycarbonate urethane.  It is synthesized as a polymer solution and extruded to a range of size and 3D structures, either as a flat film or a 3D shape. It is used in medical devices, surgical implants and 3D scaffolds for tissue development with stem cells, as well as for the development of internal and external respiratory, urological devices and other applications. This grade of Hastalex is biodegradable and biocompatible. 

Supplier: Goodfellow

Goodfellow’s Low-Density Polyethylene (LDPE) Film is a versatile material widely used in various research and industrial applications. It serves as an ideal substrate for biodegradation studies, helping to understand the degradation capabilities of diverse bacteria. LDPE films are also utilized as barrier materials in laboratory experiments, protective covers for samples, and membranes for filtration processes. Additionally, they contribute to advancements in sustainable packaging solutions, showcasing their significant role in environmental science and material research.

Supplier: Goodfellow

Goodfellow’s Low-Density Polyethylene (LDPE) Film is a versatile material widely used in various research and industrial applications. It serves as an ideal substrate for biodegradation studies, helping to understand the degradation capabilities of diverse bacteria. LDPE films are also utilized as barrier materials in laboratory experiments, protective covers for samples, and membranes for filtration processes. Additionally, they contribute to advancements in sustainable packaging solutions, showcasing their significant role in environmental science and material research.

Supplier: Goodfellow

Goodfellow’s Low-Density Polyethylene (LDPE) Film is a versatile material widely used in various research and industrial applications. It serves as an ideal substrate for biodegradation studies, helping to understand the degradation capabilities of diverse bacteria. LDPE films are also utilized as barrier materials in laboratory experiments, protective covers for samples, and membranes for filtration processes. Additionally, they contribute to advancements in sustainable packaging solutions, showcasing their significant role in environmental science and material research.

Supplier: Goodfellow

Cellulose films are being widely explored in research and development for a variety of applications. Their biodegradability, mechanical strength, and biocompatibility make them ideal for use in bioelectronics as flexible substrates for sensors and devices. They are also being utilized in controlled drug delivery systems, allowing for sustained release. Additionally, cellulose films are gaining attention in tissue engineering, where they can provide scaffolding to supports cell growth. Their ability to enhance water filtration systems also contributes to eco-friendly technologies. These diverse applications highlight cellulose films as a promising material for innovation across multiple industries.

Supplier: ACL Staticide

Designed for porous surfaces

Supplier: Goodfellow

Studies on magnesium rods reveal their promising role in advanced applications, particularly in the medical, aerospace, and automotive sectors. In orthopedic implants, magnesium alloys, enhanced by calcium and strontium, offer ideal mechanical properties and biodegradability for bone healing. Aerospace applications benefit from magnesium's lightweight and strong properties, contributing to reduced aircraft weight. In automotive industries, magnesium rods improve fuel efficiency and maintain structural integrity. Additionally, researchers focus on surface treatments to enhance corrosion resistance for magnesium alloys used in marine, industrial, and biomedical environments. Magnesium's biocompatibility allows its use in fabricating temporary cardiovascular stents. These findings bring out the growing significance of magnesium rods in high-performance industries.

Supplier: Goodfellow

Studies on magnesium rods reveal their promising role in advanced applications, particularly in the medical, aerospace, and automotive sectors. In orthopedic implants, magnesium alloys, enhanced by calcium and strontium, offer ideal mechanical properties and biodegradability for bone healing. Aerospace applications benefit from magnesium's lightweight and strong properties, contributing to reduced aircraft weight. In automotive industries, magnesium rods improve fuel efficiency and maintain structural integrity. Additionally, researchers focus on surface treatments to enhance corrosion resistance for magnesium alloys used in marine, industrial, and biomedical environments. Magnesium's biocompatibility allows its use in fabricating temporary cardiovascular stents. These findings bring out the growing significance of magnesium rods in high-performance industries.

Supplier: ACL Staticide

Easy-to-use topical antistatic solution for long-term static control

Supplier: ZING Enterprises

Comprehensive overview of Lockout/Tagout procedures.

Supplier: ACL Staticide

This high-performance floor stripper removes multiple coats of wax or synthetic floor finishes

Supplier: Alconox

Luminox is a neutral pH detergent for use in manual, ultrasonic, and machine cleaning. Safe-handling detergent used for non-corrosive cleaning without chelation or alkalinity waste treatment problems. Recommended for residue free cleaning of aluminum and soft metal, medical devices, pharmaceutical equipment, alkaline sensitive labware, and medical instruments in aluminum trays. Free rinsing, eliminating interfering residues.

Supplier: Goodfellow

Studies on magnesium rods reveal their promising role in advanced applications, particularly in the medical, aerospace, and automotive sectors. In orthopedic implants, magnesium alloys, enhanced by calcium and strontium, offer ideal mechanical properties and biodegradability for bone healing. Aerospace applications benefit from magnesium's lightweight and strong properties, contributing to reduced aircraft weight. In automotive industries, magnesium rods improve fuel efficiency and maintain structural integrity. Additionally, researchers focus on surface treatments to enhance corrosion resistance for magnesium alloys used in marine, industrial, and biomedical environments. Magnesium's biocompatibility allows its use in fabricating temporary cardiovascular stents. These findings bring out the growing significance of magnesium rods in high-performance industries.

Supplier: Goodfellow

Studies on magnesium rods reveal their promising role in advanced applications, particularly in the medical, aerospace, and automotive sectors. In orthopedic implants, magnesium alloys, enhanced by calcium and strontium, offer ideal mechanical properties and biodegradability for bone healing. Aerospace applications benefit from magnesium's lightweight and strong properties, contributing to reduced aircraft weight. In automotive industries, magnesium rods improve fuel efficiency and maintain structural integrity. Additionally, researchers focus on surface treatments to enhance corrosion resistance for magnesium alloys used in marine, industrial, and biomedical environments. Magnesium's biocompatibility allows its use in fabricating temporary cardiovascular stents. These findings bring out the growing significance of magnesium rods in high-performance industries.