Acrylic Glove Box BZAGB-503B is built for precision work environments requiring sealed, contaminant-free handling. This Glove Box has a main chamber size of 1200 × 800 × 600 mm, an integrated transition box measuring 240 × 240 × 240 mm, and comes with 4 gloves to support complex multi-operator tasks. It’s manufactured with thick PMMA, offering excellent visibility, chemical resistance, and structural stability. Its design emphasizes workflow efficiency and safety, enabling seamless transfer of tools or samples without compromising the internal atmosphere. Our Acrylic Glove Box BZAGB-503B is suitable for use in semiconductor labs, biological research, cleanroom settings, and materials engineering tasks that require a sterile and secure workspace.
$2,618.00
| Main Box Dimension | 1200 × 800 × 600 mm |
| Material | PMMA |
| PMMA Thickness | 10 mm |
| Left Round Door | 350 mm |
| Gloves | 4 |
| Transition Box | Yes |
| Transition Box Dimension | 240 × 240 × 240 mm |
| Product Dimension | 120 × 80 × 60 cm |
| Package Dimension | 176 × 94 × 76 cm |
| Net Weight | 118 Kg |
| Gross Weight | 130 Kg |
Our Acrylic Glove Box BZAGB-503B serves various demanding lab operations that call for precision and cleanliness, including chemical containment, microbiology, pharmaceutical handling, and sensitive electronics work. The addition of a dedicated transfer box helps prevent cross-contamination during object exchange and ensures safe handling of hazardous or delicate materials.
Frequently Asked Questions
1: What Is the Thickness of the Acrylic Panels?
All Acrylic Glove Box models feature 10 mm thick PMMA panels. This thickness provides excellent durability and rigidity. It also contributes to the airtight and vacuum-sealed properties of the box. The panels are impact-resistant and suitable for high-precision lab work. The consistent thickness helps maintain structural stability under vacuum.
2: What Is PMMA and Why Is It Used?
PMMA (Polymethyl Methacrylate) is a type of acrylic known for its high transparency and strength. It’s lightweight yet rigid, making it ideal for lab enclosures like the Acrylic Glove Box. PMMA also resists UV radiation and many chemicals. This ensures a long lifespan and maintains visibility. It’s safer than glass and more durable than many plastics.
3: Can You Use the Acrylic Glove Box With Inert Gases?
Yes, the Acrylic Glove Box is suitable for inert gas applications. The sealed environment and stainless steel valves allow gas purging and replacement. It is ideal for working with oxygen-sensitive or moisture-sensitive materials. The gloves and box design ensure no gas leakage. This capability supports controlled atmosphere experiments.
4: How Is Sealing Achieved in the Acrylic Glove Box?
The Acrylic Glove Box achieves high sealing through precision-machined joints, O-rings, and secure locking mechanisms. The glove ports are tightly sealed around the gloves. Doors and transition chambers include gasket seals. These components prevent air or gas exchange with the external environment. The airtight structure is key for sensitive experiments.
5: What Is the Pressure Rating of the Transition Box?
The transition box can be vacuumed up to -0.1 MPa. This vacuum capability is vital for sample preparation and transfer in inert conditions. The integrated pressure gauge ensures real-time monitoring. Secure valves control the pressure precisely. It provides excellent performance for degassing or isolating components.
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.
