eteluxglovebox

Sterile Core Replacement Without Breaching Containment: Core Safety Operation and Maintenance for Nuclear Glove BoxesFor professional nuclear research laboratories, the most critical operational safety risks stem not only from high-activity radioactive materials during experiments, but primarily from non-standard equipment maintenance and unsafe component replacement procedures. As essential safety containment equipment for radioactive material processing, nuclear […]

Nuclear laboratory safety management relies on hierarchical radiation protection systems to match different radioactive intensity and experimental scenarios. For many emerging nuclear research teams and new laboratory operators, distinguishing the functional boundaries, application scenarios, and collaborative logic between nuclear glove boxes and hot cells is the core premise of standardized nuclear material handling. Often regarded […]

From Beta Ray Shielding to Isotope Purification: Practical Nuclear Glove Box Applications in Cutting-Edge Nuclear Laboratory Research Cutting-edge nuclear laboratory research involving radioactive material processing, beta isotope preparation, and high-purity nuclear element purification demands ultra-rigorous standards for radiation shielding, airtight isolation, and precise atmospheric environment control. As essential safety containment equipment for high-risk nuclear experiments, […]

Nuclear-grade vacuum glove boxes are critical safety barriers for radioactive material handling, spent fuel research, molten salt experiments, and plutonium facility decommissioning in modern nuclear laboratories. For decades, on-site manual manipulation through sealed glove ports has been the standard operating mode for nuclear researchers. Although conventional nuclear glove boxes adopt professional radiation shielding and high-airtight […]

New Compliance Standards for Nuclear Industrial Glove Boxes Under China’s 2025 Atomic Energy Law The official enactment of China’s 2025 Atomic Energy Law has launched seven core institutional systems for the full nuclear industry chain, introducing unified, standardized, and long-term regulatory criteria for nuclear fuel cycle safety and radioactive laboratory management. As the fundamental legal […]

The global nuclear energy industry is entering a transformative era dominated by Small Modular Reactors (SMRs), alongside innovative next-generation reactor types including molten salt reactors (MSRs) and liquid metal reactors (LMRs). Unlike traditional large-scale nuclear power units, these advanced nuclear systems feature compact structures, extreme operating conditions, and highly stringent material and chemical environment requirements. […]

Metal additive manufacturing – particularly laser powder bed fusion (L‑PBF) – has become a key process in aerospace, medical implants, tooling and many other industries. Titanium alloys (Ti‑6Al‑4V, Ti‑5553, etc.), aluminium alloys (AlSi10Mg, Scalmalloy®) and nickel‑based superalloys (Inconel 718) can, in theory, achieve mechanical properties close to those of wrought products. However, a long‑overlooked but […]

Antibody–drug conjugates (ADCs) are often referred to as “biological missiles”. They use a linker to conjugate highly potent small‑molecule toxins (such as MMAE, DM1, SN‑38) to a targeting antibody, enabling precise killing of tumour cells. However, the preparation of ADCs places extreme demands on the reaction environment. On one hand, toxin molecules and linker intermediates […]