About Us
Qingdao Decent Labtech
Qingdao Decent Labtech, a pioneer in the field of mineral laboratory solutions, has a rich history of over 10 years, successfully transitioning from woodworking mechanical and electrical products to our current expertise. With a strong focus on fire assay and sample preparation, we have established ourselves as a leading provider in the industry. Our commitment to sustainable development and our zero carbon target sets us apart. Independent research and development are at the core of our operations, allowing us to offer innovative solutions to meet the evolving needs of mineral labs. From the design and manufacturing of containerized laboratories to fire assaying gold and sample preparation, our comprehensive range of services ensures the highest standards of quality and efficiency. At Qingdao Decent Labtech, we believe in fostering a culture of innovation, empowering our team to push boundaries and deliver cutting-edge solutions. Our commitment to customer satisfaction and continuous improvement drives us to exceed expectations. With the strategic integration of our expertise, advanced technologies, and customer-centric approach, we are poised to shape the future of mineral labs. Join us on this exciting journey towards excellence in mineral laboratory solutions.
Qingdao Decent Labtech
Ten Years of Experience
Our Advantage
01
Ten Years of Experience
Qingdao decent labtech, a pioneer in the field of mineral laboratory solutions, has a rich history of over 10 years, successfully transitioning from woodworking mechanical and electrical products to our current expertise.
02
Independent R&D
Ndependent research and development are at the core of our operations, allowing us to offer innovative solutions to meet the evolving needs of mineral labs. From the design and manufacturing of containerized laboratories to fire assaying gold and sample preparation, our comprehensive range of services ensures the highest standards of quality and efficiency.
03
Professional Team
At Qingdao Decent Labtech, we believe in fostering a culture of innovation, empowering our team to push boundaries and deliver cutting-edge solutions. Our commitment to customer satisfaction and continuous improvement drives us to exceed expectations.
04
Quality Assurance
From design and development to production, manufacturing, assembly, and quality control inspection.
News
Intelligent Flow Disc Tester
The Intelligent Flow Disc Tester is primarily used to determine the Transportable Moisture Limit (TML) for solid bulk cargoes that are prone to liquefaction, to prevent liquefaction phenomena during transportation and ensure the safety of transport. This device fully complies with the experimental requirements of the International Maritime Solid Bulk Cargoes (IMSBC) Code, ensuring the safety of the cargos during maritime transport.
07/19 -2024
Advanced Pulverizing Bowls for Superior Laboratory Sample Preparation
Our range of pulverizing bowls comes in various sizes to accommodate nearly every laboratory application. This series of pulverizing bowls is renowned for its exceptional wear and impact resistance, guaranteeing an extended lifespan.
07/17 -2024
FAQ
What are the safety considerations for mining laboratories? Especially container labs?
Safety is of paramount importance in mining laboratories, including container labs. Here are some key safety considerations for mining laboratories, including those housed in containers: Ventilation: Adequate ventilation is crucial to ensure a safe working environment in the laboratory. Proper ventilation systems should be in place to control and remove fumes, dust, and other hazardous airborne particles generated during sample preparation and analysis. Fire Safety: Fire safety measures are essential in mining laboratories. This includes the availability and proper maintenance of fire extinguishers, fire alarms, and emergency exit routes. Strict protocols should be followed for handling flammable chemicals and materials. Chemical Handling: Proper storage, handling, and disposal of chemicals are critical to prevent accidents and contamination. All chemicals should be clearly labeled, and safety data sheets (SDS) should be readily accessible. Personal protective equipment (PPE), such as gloves, goggles, and lab coats, should be worn when working with hazardous substances. Equipment Safety: Regular inspection, calibration, and maintenance of laboratory equipment are important for ensuring safe and accurate operation. All equipment should be used following manufacturer guidelines and safety protocols. Safety interlocks and emergency stop buttons should be in place to halt equipment operation in case of emergencies. Electrical Safety: Electrical systems and equipment should be properly grounded, and electrical installations should comply with relevant safety standards. Regular inspections and maintenance of electrical systems are essential to prevent electrical hazards. Training and Education: Proper training should be provided to laboratory staff on safe laboratory practices, including handling chemicals, operating equipment, and emergency procedures. Regular safety meetings and refresher training sessions should be conducted to keep employees informed about safety protocols and updates. Ergonomics: Attention should be given to ergonomics in the laboratory layout and design to minimize the risk of repetitive strain injuries and other musculoskeletal disorders. Workstations and equipment should be adjustable and designed with ergonomic principles in mind. Emergency Response: Clear emergency response plans should be in place, outlining procedures for accidents, spills, fires, and other emergencies. Emergency contact information should be prominently displayed, and all staff should be familiar with the protocols. By implementing comprehensive safety measures and providing ongoing training and awareness, mining laboratories, including container labs, can create a safe working environment for their staff and ensure the well-being of all involved in the laboratory operations.
What sizes are available for container laboratories?
Container laboratories come in different sizes to accommodate varying needs and requirements. The most common sizes available for container laboratories are: 10-foot Container: This compact size is suitable for smaller-scale laboratory operations or specific analytical applications. It provides a limited but functional workspace for sample preparation and analysis. 20-foot Container: A standard 20-foot container offers a more spacious area for laboratory activities. It provides ample room for equipment setup, sample handling, and analysis. 40-foot Container: A 40-foot container is larger and offers even more space for laboratory operations. It is suitable for larger-scale projects or when additional equipment and workspace are required. Multiple Containers: In cases where more space is needed, multiple containers can be interconnected or stacked to create a larger laboratory facility. This modular approach allows for scalability and flexibility to meet specific requirements. It's important to note that the internal layout and configuration of container laboratories can be customized based on the specific needs of the laboratory, including the placement of equipment, workstations, storage areas, and safety features. The available sizes can be tailored to suit the particular requirements of the project, ensuring efficient and functional laboratory operations.
What is a containerized laboratory? What is the advantage of the container laboratory?
A containerized laboratory, as the name suggests, refers to a fully functional laboratory that is housed within a standard shipping container or a modified container structure. It is a portable and self-contained solution that can be easily transported to different locations as needed. The advantages of a containerized laboratory include: Mobility: Container laboratories are designed for easy transportation and can be relocated to different sites or remote areas where traditional laboratory infrastructure may be limited. This mobility allows for on-site analysis and eliminates the need to transport samples to a central laboratory. Rapid Deployment: Container laboratories are pre-fabricated and can be quickly set up and operational within a short period. They offer a plug-and-play solution that reduces construction time and associated costs. Versatility: Container laboratories can be customized to accommodate specific analytical requirements and equipment needs. They can be designed for various applications, such as sample preparation, analysis, and testing in mineral laboratories. Cost-Efficiency: Compared to constructing a permanent laboratory facility, containerized laboratories are a more cost-effective option. They require less infrastructure investment and can be easily scaled up or down based on project demands. Modular Design: The modular nature of containerized laboratories allows for easy expansion or modification. Additional containers can be added to accommodate future growth or to meet changing analytical needs. Environmental Considerations: Container laboratories can be designed with eco-friendly features, such as energy-efficient equipment, water recycling systems, and waste management solutions. This promotes sustainable and environmentally conscious practices. So, containerized laboratories provide a flexible and efficient solution for conducting laboratory analysis in various industries, including mineral analysis. They offer mobility, rapid deployment, and cost-efficiency while maintaining the necessary laboratory infrastructure and equipment for accurate and reliable testing.