| Designed to create high temperatures needed to heat treat parts, process metals, and cure metal coatings, industrial ovens play a key role in manufacturing, material processing, research, and medicine.
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| Modern industrial ovens can operate in several modes; gas, electricity, steam, hot water, microwaves, fuel oil batch, or conveyor-loaded systems. Emphasis is placed on maximising product loading and airflow pattern performance.
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Industrial Oven Types
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| Continuous Ovens
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| Mass production; may include heating and cooling functions.
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| Batch Ovens
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| Simultaneous large volume processing.
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Applications
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| Sterilisation
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| Preparation of medical devices and instruments for aseptic use.
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| Pharmaceuticals
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| Bake coatings onto pills, oxidizer to remove excess chemicals and waste.
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| Burn-In Testing
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| Static and dynamic burn-in testing for integrated circuits and electronic devices. Provides harsh and hazardous conditions to detect product defects.
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| Heating Treatment
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| Controlled temperature tempering, ageing, stress relief, and annealing to strengthen metals.
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| Preheating / Drying
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| Controlled temperature to prepare material for the next step in production process or drying process.
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| A key component of industrial furnaces, industrial heaters convert fuel and raw materials into thermal energy to power a system, process stream or closed environment.
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Industrial Heater Types
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Applications
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| Annealing / Heat Treating
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| Material stress-relief or softening to facilitate cold working necessary to prevent fracturing.
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| Curing / Tempering
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| Decrease the hardness of ferrous alloys to increase toughness.
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| Drying
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| In-process or batch operation for controlled and consistent product or material drying.
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| Melting
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| Transform materials from a solid to a liquid state for further processing (e.g. casting).
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Fuel/Energy Source
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| Electric / Solar (AC / DC)
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| Combustible fluids (Gas / Propane / Oil / Kerosene)
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| Thermal fluids (Steam / Hot water)
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| Industrial burners facilitate the mixing of oxygen with fuel to achieve controlled combustion. By injecting fuel into the system via a burner tip, industrial burners can also shape flame and heat-release patterns, which are further controlled by the combustion chamber.
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| Our industrial burner systems are designed to maximise availability, reliability, and performance while minimising maintenance.
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Applications
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| Heating for furnace systems (solids / liquids / fluids)
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| Melting & Holding (metals / materials)
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| Initiating chemical reactions
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| Highly sensitive and precise, thermocouples measure changes in temperature via voltage changes that occur in tandem with the temperature between the junction of two types of metal (thermocouples).
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| Thermocouples are inexpensive, interchangeable, self-powered, and can be equipped with different connectors to measure a wide range of temperatures—making them ideal for manufacturing, material processing, and even commercial applications.
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Applications
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| Industrial Furnaces
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| Capable of withstanding high temperatures, corrosive conditions (air, reducing, oxidising), and versatile mounting configuration.
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| Food Applications
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| Oven control, penetration probes, Clean-In-Place sensors, food chain monitoring, hotplate control, monitoring, and steam kettle temperature control.
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| High Temperature
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| Extrusion applications, including temperature measurement for molten metal and extrusion plastic and aluminium moulding/manufacturing.
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| Low Temperature
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| Many thermocouples model can measure temperatures down to -200°C
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