Even with one of the most varied and extensive ranges of furnaces and ovens available, there are still occasions when a standard design simple does not meet a user’s precise requirements. That is when the real advantage in dealing direct with the manufacturer becomes clear, especially a manufacturer, who has the breadth and experience that Carbolite Gero possesses.
We can easily quote modifications or even custom built products. It may be something as simple as needing one of our standard products just a little larger or smaller, or to reach a higher temperature.
Alternatively it may be a design that is required for a standard test method or to work within standards compliant regimes such as AMS 2750E or Nadcap for heat treatment applications.
In these situations Carbolite Gero has the experience and skills to modify our standard designs or engineer bespoke solutions in order to achieve the appropriate levels of compliance.
If you cannot see precisely what you need in our standard range simply get in touch. Below are some examples showing the type of modifications that are available in products with an operating temperature that is is less than 750°C.
Данный 120 литровый термошкаф серии LHT Лабораторный Высокотемпературный Термошкаф, с рабочей температурой до 600°C был оснащен нестандартным загрузочным лотком, который позволяет загружать образцы в камеру, не открывая дверь.
Это решение значительно снижает потери тепла во время загрузки образца и, как следствие, восстановление температуры в камере термошкафа происходит гораздо быстрее. Для удовлетворения требований различных заказчиков нами было спроектировано и изготовлено множество вариантов термошкафов с подобной конструкцией.
An integrated 3 oven system designed for heat treatment to AMS 2750E Class 2 (±5°C) instrumentation Type D.
The system was made for a manufacturer of electronic engine and fuel system controls for aircraft engines.Housed within a common frame each chamber has a maximum temperature of 300°C, independent temperature control and fan convected airflow.
The chambers share a six channel UKAS calibrated digital chart recorder equipped with Ethernet communications.
A 600°C 350 litre capacity HTMA, High Temperature Modified Atmosphere Oven with a high temperature afterburner for nuclear research applications.
A mass flow controller manages an inert gas flow and the process cycle is recorded using a paperless chart recorder or DAQ (digital acquisition device).
All systems are fully alarmed with over-temperature protection for the main chamber and afterburner.
Based upon a GP 450A General Purpose Oven this 300°C oven with 450 litre capacity has been modified to enable operation within an ISO 14644 Class 3 cleanroom environment.
Air is drawn from the cleanroom interior circulated within the oven and then exhausted the exterior environment outside the room.
The oven is used for the drying of materials used in the manufacture of synthetic bone allografts .
A bespoke pass-through oven that fits through the wall of an ISO14644 Class 3 cleanroom operated by a medical device manufacturer.
Able to heat to 400°C with a stability of better than ±1°C under steady state conditions and with a uniformity of better than ±5°C inside a chamber that is nearly a metre long. This is achieved by using a three zone control system.
The oven is used to heat treat vascular stents that are carried on mandrels that are held in a specially designed load management system.
This GPC12/36 General Purpose Chamber Furnace has been equipped with a catalytic afterburner. This is to deal with the combustion products generated by polyethylene within the test sample.
This 36 litre furnace is one of several chamber furnaces to which afterburners have been added so as to process fumes that would normally exhaust through the chimney. The normally 1200°C GPC has been temperature limited in order to protect the catalyst from damage.
Both the main chamber and the afterburner are protected by over‑temperature controllers. A manual switch enables the selection of high and low extraction rates.
A batch process, modified atmosphere oven with a maximum temperature of 200°C and a design that is optimised for the curing of silicone hydrogel contact lenses.
A warning light indicates whether the process cycle is running or complete. Interlocked purge and process gas supplies under the control of a programmable controller are supplemented with the ability to direct a sample of the chamber atmosphere to an oxygen monitor.
An independent over-temperature thermostat, protects the chamber and its load should there be a failure of the primary controller.
The oven was painted to the customers preferred colours.
This Thermoplastic Preheating Oven is designed for use in conjunction with a Draping Oven.
With a maximum temperature of 300°C, this oven is used to preheat thermoplastic sheets before they are vacuum formed or draped. Like draping ovens this model is frequently used in the production of prosthetic limbs.
This Draping Oven is designed for thermoforming thermoplastic sheets, using the draping method in which pre-heated plastic sheet is laid over a form.
They are further heated until the sheet has moulded to the shape of the underlying form.This process is frequently used in the manufacture of prosthetic limbs.
Built for an aerospace company this system comprises a double GP220B General Purpose Oven system. The two ovens assembled into a single case with an integral floor stand.
Each unit is independently controlled and equipped with its own over‑temperature protection thermostat and extraction fan which vents through a top mounted chimney.The two chambers share a mutli‑channel digital chart recorder.