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Grace Qiu
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Posted: 18 January, 2024|
Dental Sintering furnaces play a crucial role in the sintering process of dental restorations, particularly those made from zirconia. This process transforms the milled zirconia framework into a strong, biocompatible final product. Dental sintering
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Posted: 10 August, 2023|
Proper vaccine storage can prevent waste and financial loss due to unwanted temperature excursions. need to be kept within a specific temperature range from the moment they’re manufactured to when they’re administered to a patient, and the
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Posted: 02 August, 2023|
Laboratory furnaces are essential tools for the development and manufacturing of modern electronics. They are used to perform a variety of tasks, including:
-- Growing single-crystal semiconductor ingots. This is a critical step
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Posted: 14 June, 2023|
Lab equipment is essential for successful experiments, providing researchers with the tools they need to achieve accurate and reliable results. However, when recirculating lab chiller
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Posted: 25 May, 2023|
When lab managers need to work with contagious and deadly pathogens, they need a safe and clean environment. Biosafety cabinets are an excellent Lab equipment because they offer various amenities while keeping both the human being and the surrounding
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Posted: 22 May, 2023|
Lab Ovens Buying Guide: Find the Perfect Fit for Your Needs
Lab ovens are essential instruments in scientific research, providing controlled heating and drying environments for various laboratory processes. With precise temperature control
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Posted: 04 May, 2023|
Induction Forging:
Induction forging refers to the use of an induction heater to pre-heat metals prior to deformation using a press or hammer. Typically, metals are heated to between 1,100 and 1,200 °C
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Posted: 28 April, 2023|
Induction heating is a process that uses electromagnetic induction to heat conductive materials, such as metals and semiconductors. The heating is caused by eddy currents, which are induced in the material by a rapidly changing magnetic field. The frequency of the magnetic field is typically in the range of 10 kHz to 1 MHz, and the power level can be adjusted to control the rate of heating. The temperatures are as low as 100 ºC (212 °F) and as high as 3000 °C (5432 °F) .It can be used in brief heating processes that are on for less than half a second and in heating processes that are on for months.
The Benefits of Induction heating over other heating methods, such as:
* Efficient, with up to 98% of the energy being converted to heat.
* Fast, with the material typically reaching the desired temperature in seconds.
* Precise, with the heating area being limited to the area within the induction coil.
* Safe, with no emissions or fumes or flame
Extended Life of Fixturing due to precise heating
Induction heating is a versatile and efficient heating method that is used in a wide variety of applications. It is a safe, precise, efficient, and clean process that offers several advantages over other heating methods.
Induction heating is