Stainless steel mesh tray
some description about product
Stainless steel mesh tray is a versatile and durable storage and organization solution commonly used in various industrial, commercial, and domestic settings. Constructed from high-quality stainless steel, this type of tray offers excellent corrosion resistance, making it suitable for applications in both dry and wet environments.
The tray’s defining feature is its mesh design, comprising interwoven stainless steel wires that form a grid pattern. The mesh provides several benefits, including allowing air circulation and drainage, making it ideal for storing items that require ventilation or that may come into contact with liquids. This makes stainless steel mesh trays popular in food processing, medical, and laboratory settings.
Due to their robust and hygienic nature, stainless steel mesh trays are commonly used for sterilizing and drying equipment and tools. They are easy to clean, resistant to bacteria and fungi growth, and can withstand high temperatures during autoclaving or sterilization processes.
In industrial settings, these trays serve as effective material handling and storage solutions for parts, components, and small items. Their open design allows workers to identify and access items quickly, enhancing efficiency and reducing the risk of damage or loss.
ProductS
perforated stainless steel mesh tray
Perforated stainless steel mesh tray is a specialized variant of the stainless steel mesh tray, featuring
a grid pattern of small holes or perforations across its surface. These perforations provide additional benefits, such as improved drainage and increased airflow.
It’s design allows liquids or excess moisture to pass through easily, making it suitable for applications where drainage is crucial, such as in food processing, industrial parts cleaning, and chemical laboratories.
The perforated stainless steel mesh tray retains all the advantages of its solid counterpart, including excellent corrosion resistance, durability, and ease of cleaning. Its ability to allow liquids to flow through also makes it an ideal choice for applications where maintaining cleanliness and hygiene are paramount.
304 stainless steel mesh tray
304 stainless steel mesh tray features a grid-like design created by interwoven stainless steel wires,
providing excellent ventilation and drainage capabilities. Grade 304 stainless steel is one of the most widely used and versatile austenitic stainless steels, known for its excellent corrosion resistance and durability.
It contains high levels of chromium and nickel, providing superior resistance to oxidation, rust, and various corrosive environments, including exposure to acids and chemicals.
The 304 stainless steel mesh tray shares many features with other stainless steel mesh trays, such as its mesh design with interwoven wires to form a grid pattern. This design facilitates proper ventilation and drainage, making it ideal for applications where air circulation and moisture control are essential.
Due to its exceptional resistance to corrosion, the 304 stainless steel mesh tray is commonly employed in industries and environments where hygiene and sanitation are critical, such as food processing, pharmaceuticals, and medical facilities. It is also used in laboratories, where it provides a reliable solution for storing, sterilizing, and organizing laboratory equipment and tools.
316 stainless steel mesh tray
316 stainless steel mesh tray is a specific type of stainless steel tray constructed using Grade 316
stainless steel. Grade 316 stainless steel is an austenitic chromium-nickel stainless steel alloy that contains molybdenum, which provides enhanced corrosion resistance, particularly in harsh and corrosive environments. This makes it highly suitable for applications where exposure to chemicals, salts, and marine environments is common.
The 316 stainless steel mesh tray shares the same mesh design as other stainless steel mesh trays, providing excellent ventilation and drainage capabilities. Its exceptional corrosion resistance makes it an ideal choice for industries such as marine, offshore, chemical processing, and pharmaceuticals.
Additionally, Grade 316 stainless steel offers superior strength and durability, ensuring the mesh tray can withstand heavy loads and endure challenging conditions without succumbing to corrosion or structural damage. Its hygienic properties and ease of cleaning make it suitable for applications in food processing, medical facilities, and laboratories, where cleanliness and sterilization are critical.
wire mesh instrument sterilization trays
Wire mesh instrument sterilization trays are used in medical and healthcare facilities to organize
and sterilize surgical instruments. These trays are typically made from stainless steel or other metal alloys, featuring a mesh design with interwoven wires forming a grid pattern.
The wire mesh construction allows for excellent air circulation and steam penetration during the sterilization process, ensuring that the instruments inside are thoroughly sterilized. The trays are designed to hold surgical tools securely in place, preventing damage and ensuring easy identification and retrieval.
These instrument sterilization trays are essential in maintaining a hygienic and organized environment in operating rooms and medical facilities. They help streamline the sterilization process, making it more efficient and reliable. Moreover, the metal construction provides durability, enabling the trays to withstand repeated sterilization cycles and resist corrosion and degradation.
stainless steel fine mesh tray
Stainless steel fine mesh tray is constructed using high-quality stainless steel with an exceptionally fine mesh pattern.
Unlike standard mesh trays, the fine mesh tray features a tightly woven grid of stainless steel wires, resulting in smaller openings and a higher mesh count per square inch. This fine mesh design offers several unique advantages in various applications.
One of the primary uses of a stainless steel fine mesh tray is in culinary settings, especially in commercial kitchens and bakeries. The fine mesh prevents smaller food items, such as grains, seeds, or herbs, from falling through, making it perfect for sifting and straining ingredients during food preparation.
In laboratories and scientific research facilities, the fine mesh tray is used to hold and separate delicate samples, ensuring minimal cross-contamination and efficient handling. The smaller mesh openings enable precise filtering of fine particles and substances, making it an indispensable tool in various analytical procedures.
Additionally, the fine mesh tray finds applications in electronics manufacturing, where it acts as an effective surface for drying and cleaning small electronic components, preventing any foreign particles from causing defects.
stainless steel wire basket tray
Stainless steel wire basket tray is made from high-quality stainless steel wires, carefully woven into
a basket-like structure. This design creates an open, grid-like pattern with sides, resembling a basket, allowing for the secure containment of items while providing excellent visibility and ventilation.
The wire basket tray is widely used in various industrial and commercial settings, as well as in homes, due to its versatility and durability. It offers a practical and hygienic solution for storing and transporting items in environments where proper ventilation and drainage are essential.
In industrial applications, stainless steel wire basket trays are commonly used for material handling, providing an efficient way to store and transport small parts, tools, and components in manufacturing and assembly processes. The open design enables workers to quickly identify and access the items they need, streamlining workflows and enhancing productivity.
CUSTOM YOUR OWN FILTER PRODUCTS
Our company provides a kind of metal alloy to solve the problem of providing products with excellent
performance in high temperature and high corrosive environment. Our products are very strong
and welded or sintered. Length, diameter, thickness, alloy, medium grade and other specifications
can be adjusted during the production process, so that the product is suitable for a variety of
filtration, flow and chemical compatibility in different customer processes.
Techniques
What is the mesh size and wire diameter used in the mesh construction?
The mesh size and wire diameter used in the construction of stainless steel wire basket trays can vary depending on the specific application and requirements. Mesh sizes typically range from small to large, with common sizes such as 1/8″, 1/4″, 1/2″, or even larger.
Wire diameter also varies based on the strength and load-bearing capacity needed for the tray. Common wire diameters used in stainless steel wire basket trays are in the range of 1.5mm to 3mm, but thinner or thicker wires can also be used, depending on the intended use and design specifications of the tray.
What type of stainless steel material is used for the mesh tray?
The type of stainless steel material commonly used for mesh tray is typically austenitic stainless steel. Within the austenitic stainless steel family, Grade 304 and Grade 316 are the most commonly utilized choices.
Grade 304 stainless steel is known for its excellent corrosion resistance, ease of fabrication, and affordability.
On the other hand, Grade 316 stainless steel offers even higher corrosion resistance, particularly in aggressive environments such as marine or chemical settings, thanks to the inclusion of molybdenum in its composition.
How is the stainless steel mesh tray installed or mounted in different settings?
The installation or mounting of stainless steel mesh tray can vary depending on the specific setting and application. Here are some common methods used in different settings:
1.Industrial settings: In manufacturing and industrial environments, stainless steel mesh trays are often mounted on shelves, racks, or storage systems using brackets or support structures. These trays may be stacked on top of each other to maximize vertical storage space.
2.Food processing: In commercial kitchens or food processing facilities, stainless steel mesh trays are commonly used for drying, cooling, or storing food items. They can be installed on rolling carts, shelving units, or inside ovens or food dehydrators.
4.Healthcare facilities: In medical and healthcare settings, mesh trays are used for sterilizing surgical instruments. They are often installed in autoclaves or sterile processing departments using specialized trays holders.
5.Residential and organizational use: In homes or offices, stainless steel mesh trays may be used for organizing items in drawers, cabinets, or on countertops.
The installation method will depend on the specific requirements of each setting and the type of stainless steel mesh tray being used. Proper installation ensures the trays are securely held in place and can effectively serve their intended purposes.
What is the load distribution of the stainless steel mesh tray under various loading conditions?
The load distribution of a stainless steel mesh tray under various loading conditions depends on the design, thickness, and configuration of the tray.
The mesh design allows for even distribution of weight and load across the entire surface area of the tray. This means that the load is dispersed and supported by multiple intersecting wires, which helps prevent localized stress concentration.
As a result, stainless steel mesh trays can handle various loading conditions, such as the weight of stored items, without significant deformation or structural failure, making them reliable and sturdy storage solutions in industrial, commercial, and domestic settings.
Does the stainless steel mesh tray have any specialized features?
The stainless steel mesh tray boasts several specialized features that make it a valuable and versatile storage solution. Its mesh construction offers excellent ventilation and drainage capabilities, making it suitable for applications where airflow and moisture control are vital.
The stainless steel material provides exceptional corrosion resistance, ensuring durability and longevity, even in harsh environments. These trays are compatible with sterilization methods, making them ideal for use in medical and laboratory settings.
Moreover, the smooth and non-porous surface facilitates easy cleaning and maintenance, promoting a hygienic storage environment.
Their strength and durability allow them to handle heavy loads without deformation, making them reliable in industrial, commercial, and domestic settings.
How does the open design of the mesh tray facilitate airflow and heat dissipation in certain applications?
The open design of the mesh tray allows for unobstructed airflow through the tray’s surface. In certain applications, such as in ovens, food dehydrators, or industrial drying processes, this open design enables efficient circulation of hot air around the items placed on the tray. The airflow helps evenly distribute heat, promoting consistent and thorough drying or cooking.
Additionally, in electronics manufacturing or equipment storage, the open design aids in dissipating heat generated by electronic components or devices, preventing overheating and ensuring optimal performance.
The enhanced airflow and heat dissipation capabilities of the mesh tray contribute to improved efficiency and better outcomes in these specific applications.
FAQ
Most frequent questions and answers
The dimensions and weight capacity of stainless steel wire mesh trays can vary depending on the specific design and manufacturer.
Generally, the dimensions of these trays can range from small to large, with common sizes being 12 inches by 18 inches or 18 inches by 24 inches. The weight capacity can also vary, but typical stainless steel wire mesh trays can support loads ranging from 10 to 50 pounds or more, depending on the tray’s size and construction.
Perforated stainless steel mesh trays are designed to withstand a wide temperature range, making them suitable for various applications. The exact temperature range can vary depending on the specific grade of stainless steel used and the tray’s design.
In general, perforated stainless steel mesh trays can withstand temperatures from as low as -300°F (-184°C) to as high as 1500°F (816°C) or even higher for some specialty alloys.
This broad temperature resistance allows these trays to be used in a diverse range of industries, including food processing, aerospace, automotive, and industrial applications, where exposure to extreme temperatures may be encountered.
To clean and maintain stainless steel mesh tray for preventing corrosion and ensuring longevity, follow these steps:
1.Regular cleaning: Clean the tray regularly with a mixture of mild detergent and warm water, using a soft sponge or cloth.
2.Avoid abrasive materials: Avoid using abrasive cleaners or steel wool, as they can scratch the stainless steel surface, making it more susceptible to corrosion.
3.Thorough rinse: After cleaning, thoroughly rinse the tray with clean water to remove any residue from cleaning agents.
4.Dry completely: Ensure the tray is completely dry after cleaning to prevent water spots and potential corrosion.
5.Use stainless steel cleaner: Occasionally, use a stainless steel cleaner or polish to maintain the tray’s appearance and protect against corrosion.
By following these practices, the stainless steel mesh tray will maintain its integrity, preventing corrosion and ensuring long-lasting performance.
There are coatings available to enhance the corrosion resistance of stainless steel wire mesh trays. One common method is applying a protective layer of passivation, which improves the stainless steel’s natural corrosion resistance by forming a thin, inert oxide layer on the surface.
Additionally, certain specialized coatings, such as epoxy or polymer coatings, can be applied to the mesh trays to provide an extra layer of protection against corrosive environments.
These coatings act as a barrier, shielding the stainless steel from exposure to corrosive agents and extending the tray’s lifespan in challenging conditions.
SS mesh trays can be customized to fit specific equipment or applications. Manufacturers often offer custom fabrication services, allowing customers to tailor the dimensions, shape, and design of the trays to meet their unique requirements.
Whether it’s adjusting the size of the tray, altering the mesh pattern, or adding additional features like handles or dividers, customization ensures that the stainless steel mesh tray perfectly aligns with the intended equipment or application.
This flexibility makes stainless steel mesh trays highly adaptable and suitable for a wide range of industries and uses.
There are safety accessories available to ensure secure handling and containment of items on a perforated stainless steel tray. Handles are a common safety accessory added to mesh trays, providing a convenient and ergonomic way to carry and transport the tray without risking potential injury. Handles can be fixed or foldable, depending on the specific application.
In certain settings, such as in medical or laboratory environments, stainless steel tray lids or covers may be used to securely enclose and protect the items inside. Lids can help prevent contamination, protect delicate items from external elements, and ensure proper containment during transportation or storage.
Moreover, dividers and partitions can be included to separate and organize items on the tray, preventing shifting and potential damage during handling. These safety accessories enhance the functionality and safety of the perforated stainless steel tray, making it a versatile and reliable solution for various applications.
304 stainless steel mesh tray is well-suited for use in wet or mildly corrosive environments without compromising its performance.
Grade 304 stainless steel offers excellent corrosion resistance, making it resistant to rust and oxidation in most indoor and outdoor environments, even when exposed to moisture or mild corrosive agents.
However, in highly aggressive or corrosive environments, such as those with high chloride concentrations, Grade 316 stainless steel may be a more appropriate choice due to its higher level of corrosion resistance.
There are several design considerations to prevent items from slipping through the mesh openings in a stainless steel mesh tray:
1.Mesh size: Choosing a smaller mesh size with tighter openings can prevent smaller items from slipping through.
2.Wire diameter: Opting for thicker wires in the mesh construction can reduce the size of the openings, making it more challenging for items to pass through.
3.Tray edges: Ensuring the tray has raised edges or a lip around the perimeter can help contain items and prevent them from falling off the tray.
4.Dividers: Adding dividers or partitions within the tray can further organize and secure items, preventing them from moving or slipping through the mesh.
These design considerations enhance the functionality and safety of the mesh tray, ensuring items are securely held in place during use.
316 stainless steel mesh tray can offer specific properties for electrostatic discharge (ESD) protection when used in electronics or sensitive equipment handling applications.
Grade 316 stainless steel has a higher electrical resistivity compared to other stainless steel grades, which can help dissipate static charges and reduce the risk of ESD.
This property makes it a suitable choice for applications where ESD protection is crucial, such as in electronics manufacturing or handling sensitive electronic components.
The use of 316 stainless steel mesh trays can help prevent damaging electrostatic discharge, ensuring the safety and reliability of sensitive equipment and electronics.
Custom stainless steel mesh trays can be designed to be stackable or nestable for storage or transportation purposes.
Stackable trays feature specific features, such as stacking legs or recessed areas, that allow them to be securely stacked on top of each other without damaging the contents.
Nestable trays, on the other hand, have a design that allows them to fit inside each other when empty, minimizing the storage space required.
These stackable or nestable features make custom stainless steel mesh trays highly efficient for storage, transportation, and space-saving solutions in various industrial, commercial, and domestic settings.
Wire mesh instrument sterilization trays can be made compatible with automated handling systems or conveyors.
Manufacturers can design these trays with specific features such as integrated handles, tabs, or brackets that allow them to be easily and securely held or transported by automated systems.
The trays’ standardized dimensions and design flexibility make them suitable for integration into conveyor systems commonly used in medical and healthcare facilities for sterilization processes.
This compatibility enhances efficiency and streamlines the sterilization workflow, making it more convenient and effective for large-scale processing of medical instruments and equipment.
The stainless steel fine mesh tray offers a distinct balance between cost-effectiveness and performance, depending on the specific application.
While it may be relatively more expensive than standard solid trays due to the complexity of its fine mesh design, its advantages justify the investment in certain scenarios.
The fine mesh allows for precise filtration, making it ideal for delicate items or processes that require stringent particle separation. It excels in applications where proper ventilation, drainage, and visibility are essential, such as in food processing, laboratory, and electronics industries.
In contrast, standard solid trays are more cost-effective for general storage needs without specific airflow or filtration requirements.
Stainless steel wire basket trays are commonly used for sterilization or autoclaving processes in medical and laboratory settings.
The stainless steel material provides excellent corrosion resistance and can withstand high temperatures typically used in autoclaves or sterilization chambers. The wire basket design allows for proper steam penetration and air circulation, ensuring effective sterilization of medical instruments, laboratory equipment, and other items.
The sturdy construction of the wire basket tray allows it to endure repeated sterilization cycles without compromising its structural integrity, making it a reliable choice for maintaining a hygienic environment in medical and laboratory facilities.
Steel mesh tray finds diverse applications in various industries due to their versatile and durable nature. Some potential applications include:
1.Food processing: Used for drying, cooling, and storing food items, as well as in baking and food dehydrating processes.
2.Medical and healthcare: Utilized for sterilizing and organizing surgical instruments in hospitals, clinics, and surgical centers.
3.Laboratories: Used to hold and separate delicate samples during testing and research.
4.Electronics: Employed for drying and storing small electronic components, preventing damage during assembly.
5.Industrial manufacturing: Used for material handling and organization of small parts and components.
6.Automotive: Utilized for organizing and handling various tools and equipment in automotive workshops.
7.Marine and offshore: Suitable for storage and organization in harsh marine environments.
8.Aerospace: Used for organizing parts and tools in aerospace manufacturing and maintenance facilities.
9.Home and office: Applied for storage and organization in domestic and commercial settings.
The stainless steel mesh tray’s adaptability and resistance to corrosion make it a reliable solution across numerous industries where efficient storage, organization, and handling of items are required.
When choosing a stainless steel mesh tray supplier, several factors need to be carefully considered to ensure a reliable and satisfactory partnership:
1.Quality and material: Verify that the supplier provides high-quality stainless steel mesh trays, preferably made from Grade 304 or Grade 316 stainless steel, ensuring durability and corrosion resistance.
2.Customization: Look for a supplier that offers customization options to tailor the trays to specific needs, including size, mesh pattern, and additional features.
3.Experience and reputation: Choose a supplier with a proven track record and positive reviews, demonstrating their expertise and reliability in providing quality products and services.
4.Certifications and compliance: Ensure the supplier adheres to relevant industry standards and certifications for manufacturing and material sourcing.
5.Pricing and value: Compare pricing with the quality and features offered to ensure fair and competitive pricing for the mesh trays.
6.Lead time and delivery: Assess the supplier’s lead time and delivery capabilities to meet project timelines and requirements.
7.Customer support: Opt for a supplier with responsive and helpful customer support, ensuring a smooth purchasing experience and prompt resolution of any issues.
By considering these factors, businesses can make an informed decision and choose a reputable stainless steel mesh tray supplier to meet their specific needs and ensure a successful long-term partnership.
