Lab Equipment Service

Security, performance, and comfort are the most important things to think about in today's modern research labs and businesses. Choosing the right insulating material is very important, whether it's to make sure that experiments are done in safe environmental settings or to minimise noise levels in busy places. There are several options, but insulating glass woollen sticks out as one of the best for both thermal and soundproofing. At Novus Technicia , we specialise on making new clinical and laboratory equipment. We know exactly how important insulation is for safety and performance. What is glass wool insulation? Insulation glass woollen is a fibrous material manufactured from sand and recycled glass that has been spun into fine, flexible fibres. Its special structure traps air, which reduces warm transfer and moistens audio resonances. Because of this, it is a popular choice for research labs, cleanrooms, and business centres where controlled environments are important. T...

  It is very important to maintain things sterile in labs and pharmacies. The most important thing about depyrogenation ovens is that they get rid of pyrogens, which are usually endotoxins, from glass and metal items using dry heat sanitation. But, like all accuracy tools, they can have problems with their usual functioning over time. Novus Technicia, a trusted partner in high-quality lab solutions, has given you some common depyrogenation range problems and reasonable remedies. 1. Temperature Level Circulation That Isn't Regular Problem: The depyrogenation oven's uneven flow of heat can make sterilisation useless and put things at danger of contamination. Take care of: Check thermal mapping and calibrate temperature sensors often. Make sure that devices are loaded correctly so that air can move freely and not get stuck. Set up a restoration plan to check the heating and fan lorries. Our depyrogenation ovens at Novus Technicia are designed to keep the temperature uniform, wh...

What is a Sieve Shaker Machine and How Does it Work?  A  sieve shaker machine is a hig hly accurate tool that is used in industries and laboratories for separating particles according to size. It imparts a circular motion for effectively sifting, primarily for the purpose of testing of particles for size and sample distribution analysis. This machine has been used in QC throughout the furnace, construction, pharmaceutical, and food industries. The operation of a sieve shaking machine is simple but highly productive. A sample is placed on the upper sieve of a stack of sieves which run through progressively smaller mesh sizes. The shaker now vibrates or rotates the stack, and then depends on its variant, the mechanical machine, or the electromagnetic or air jet shaker. The particles are sieved through and everything that can fit through runs through the sieve of the relevant diameter. The result is a well-defined size distribution of particles for further analysis. In laborator...

  The Heat Healing, the Technique Protecting : Dry Heat Sterilization  In laboratory research and industrial processes, every little bit of contamination is a big deal, and in the toxin-free world, it's a necessity— not just a requirement. When the complete destruction of microbial life is needed, Dry Heat Sterilization p roves to be a reliable and efficient process. But what exactly is it? How does it work? And why might industries and labs want to use this approach over others? Let’s unpack it. What is Dry Heat Sterilization? Dry Heat Sterilization i s a method used to control and kill microorganisms by applying high temperature (typically 160-180ºC).This results in deconstruction of the microorganism proteins, which are coagulated and the cells are slain. I’ll lead with this: Although it would be a sterile aircraft there would not be anything left of it: the principle of dry heat (having no moisture content) is that it uses the more lethal procedure of oxidation, basicall...

What are the Leading Biosafety Cabinet Brands on the Market?  For laboratories routinely dealing with dangerous agents such as cytotoxic agents, infectious materials, or delicate cultures, the biosafety cabinets ar e a primary barrier. They secure the laboratory setting and also guarantee the safety of both the scientists and samples. When you choose best biosafety cabinet brand s, you choose a safe, efficient and contaminant-free workplace, especially in the labs with majo r life sciences microscopes or even preparing the samples for best science microscopes. Why Choosing the Right Biosafety Cabinet Matters There are different classes of biosafety cabinets (Class I, II and III) according to the level of protection needed. If you are dealing with hazardous microorganisms, or volatile compounds, only the best brands with heavy duty HEPA filters and airflow regulation are suitable. The implications of making the wrong choice include cross-contamination, exposure to pathogens or ...

Seed germination : Guidance and  go to STEPS The Seed Germinator is an indispensable for agricultural labs, biotech research, and seed testing facilities. It establishes a controlled environment — temperature, moisture and even light — for the germinator process to achieve desired results. However, as with any high-performance tool, maintenance is essential for obtaining accurate results and ensuring long machine life. Here’s a step-by-step process on how to maintain a seed germinator, with real-world examples. Clean the Interior Regularly Step: 1 Clean the interior walls, trays, and shelves with a mild disinfectant. Stay away from any harsh chemicals that may alter your seed samples. Example: In a seed lab that uses GMP autoclaves and germinators , weekly cleaning helps avoid mold and cross contamination. STEP 2 : Verify and Adjust Temperature & Humidity Sensors Step: Sensitivity calibration on a monthly basis ensures the sensors are reading accurately. Example: A lab with f...