Acrylic Glove Box BZAGB-502C is engineered for high-precision operations in critical research and industrial environments. This Glove Box has a 1200 × 800 × 700 mm main chamber, with a 240 × 240 × 240 mm transition box and 4 integrated glove ports, supports vacuum pressure up to -0.1 Mpa facilitating safe multi-user functionality. It’s Built from 30 mm thick PMMA, it provides exceptional durability, chemical resistance, and crystal-clear visibility. It offers a heavy-duty frame and advanced isolation features are tailored for use in highly controlled atmospheres. Our Acrylic Glove Box BZAGB-502C is ideal for cleanroom processes, materials synthesis, pharmaceutical development, and microelectronics assembly.
| Main Box Dimension | 1200 × 800 × 700 mm |
| Material | PMMA |
| PMMA Thickness | 30 mm |
| Left Round Door | 350 mm |
| Gloves | 4 |
| Glove Box Vacuum | -0.1 Mpa |
| Transition Box | Yes |
| Transition Box Dimension | 240 × 240 × 240 mm |
| Product Dimension | 120 × 80 × 60 cm |
| Package Dimension | 183 × 88 × 94 cm |
| Net Weight | 225 Kg |
| Gross Weight | 255 Kg |
Our Acrylic Glove Box BZAGB-502C supports a broad range of technical and scientific procedures requiring contamination control. It is widely used in photonics testing, bioengineering labs, controlled-atmosphere packaging, and nanomaterials synthesis. The combination of a robust build and multiple-glove ports ensures both safety and collaboration in sensitive tasks. It’s a trusted choice for professionals working in cleanroom and regulated lab environments.
Frequently Asked Questions
1: hy Is High Transparency Important for an Acrylic Glove Box?
The high transparency of the acrylic allows for excellent visibility, which is crucial when performing detailed scientific or technical tasks inside the box. It eliminates the need for internal lighting in many cases and provides a clear view of procedures without obstruction.
2: Can You Customize the Size of the Glove Box?
Yes, customization is supported. Users can request specific external dimensions, transition box sizes, and glove access points based on their operational requirements. This makes the Acrylic Glove Box adaptable for various industrial, educational, and research applications.
3: How Secure Is the Seal Between the Gloves and the Box?
The seal between the latex gloves and the Acrylic Glove Box is highly secure, using precision-milled circular ports with compression fittings. This ensures airtight isolation, preventing any gas leaks or contamination from occurring during glove manipulation.
4: Can You Connect External Equipment to the Glove Box?
Yes, the design includes ports that can be used to connect vacuum pumps, gas supplies, or electrical leads. This expands its use for controlled testing environments where electrical or vacuum-driven apparatus are required inside the chamber.
5: What Thickness Is the Acrylic Used in the Glove Box Construction?
The Acrylic Glove Box typically uses acrylic panels with a thickness of 20–30 mm, providing both structural durability and optical clarity. This thickness helps the box withstand internal vacuum pressure while offering long-term reliability.
6: What Is an Acrylic Glove Box Used For?
An Acrylic Glove Box is used to create a sealed and controlled environment for conducting experiments. It helps isolate materials from air, moisture, dust, and contaminants. This makes it suitable for chemical, biological, or electronic research. Users can manipulate objects inside safely through attached gloves. It’s essential for clean and precise lab work.
7: What Materials Are Used in This Acrylic Glove Box?
The Acrylic Glove Box is made of clear, durable acrylic panels, providing high visibility and structural strength. It features latex gloves for hand access, which are soft and flexible. Gas inlet and outlet valves are made of stainless steel, offering durability and corrosion resistance. All materials are chosen for lab safety and reliability.
8: Is the Acrylic Glove Box Airtight?
Yes, the Acrylic Glove Box is designed to be airtight. The front door uses a sealing gasket and latches to prevent any air exchange with the outside. This ensures a stable atmosphere inside, which is crucial for sensitive tasks. Airtightness also protects both users and contents from contamination. It maintains the integrity of experiments.
9: How Do You Introduce Gas Into the Acrylic Glove Box?
Gas is introduced through the stainless steel inlet and outlet valves built into the Acrylic Glove Box. These valves allow you to purge the interior with inert gases like nitrogen or argon. This helps in creating a dry and oxygen-free environment. The process is straightforward and supports many types of scientific experiments. Pressure can be controlled safely.
10: Can the Acrylic Glove Box Be Used for UV Experiments?
Yes, the Acrylic Glove Box can support UV-based experiments. Its clear acrylic body allows limited UV transmission, which is useful for sterilization or polymer curing. However, compatibility depends on the wavelength of UV light used. It’s ideal for microbiology work or UV testing when used properly. Always follow safety guidelines when using UV light.
