14 October 2025/
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IdaCalor® Heating Plates are reliable and efficient heating solutions designed for high precision laboratory and industrial applications. Manufactured with advanced engineering techniques and meticulous material selection, these products provide the highest level of temperature control required by users. Our heating plates offer an ideal solution for a wide range of applications from laboratories to production facilities.
Technical Specifications:
| MODEL | IdaCalor-HT2525 | IdaCalor-LT2525 | IdaPlate-RT2525 |
| SURFACE MATERIAL | Stainless Steel (SS) | Aluminum | Aluminum |
| SURFACE MATERIAL (OPTIONAL) | Titanium, graphite, ceramic, bronze, etc. | SS, Titanium, graphite, ceramic, bronze, etc. | SS, Titanium, graphite, ceramic, bronze, etc. |
| SURFACE AREA (MM) | 250×250 | ||
| SURFACE AREA (MM) (OPTIONAL) | Customized in different sizes | ||
| MAX. TEMPERATURE | 500°C | 200°C | Non-heated |
| SAFETY FEATURES | Overheat protection system, short circuit protection mechanisms and other safety features | ||
| OPERATING VOLTAGE | Energy requirement compatible with 220V AC | ||
Our heating plates are designed to meet the needs of a variety of industries. With precise temperature control and a wide range of surface options, they are ideal for a range of applications. These applications include:
• Materials Science and Research:
• Chemistry and Biochemistry Laboratories:
• Polymer and Composite Material Production:
• Pharmaceutical Research:
• Food Science and Technology:
Our heating plates stand out with the many advantages they offer in various industrial applications. Here are some of these advantages:
• High Heat Efficiency:
Thanks to advanced heating technology, our heating plates quickly reach the desired temperature. In this way, processes are completed in a shorter time, saving time.
• Precise Temperature Control:
Integrated control systems minimize temperature fluctuations and ensure a constant temperature, increasing the consistency of applications. Users can easily set and monitor the target temperature.
• Various Surface Options:
Our heating plates offer a variety of options such as stainless steel, aluminum, titanium, graphite and other specialty surface materials. These materials offer superior performance over different temperature ranges and adapt to a variety of applications.
• Programmable Temperature Rise Rate:
Users can customize the temperature ramp rate. This feature allows to optimize heating processes according to specific application requirements and increases user control.
• Homogeneous Heating:
Thanks to high quality surface materials and design, the heating plates provide a homogeneous heat distribution on the surface. This improves the quality of applications and prevents unwanted temperature differences.
• Durability and Long Life:
The materials used are resistant to high temperatures and chemical influences. This ensures a long lifetime of the heating plates, reduces maintenance costs and ensures reliable performance.
• Various Application Areas:
With a wide range of applications addressing different industrial fields, heating plates are a versatile solution. From laboratory research to food processing and chemical production, they can be used effectively in many sectors.
• Easy Operation and Integrated Systems:
User-friendly control interfaces and integration capabilities make heating plates easy to use. The ability to work in harmony with automation systems increases the efficiency of processes.
• Customizable Solutions:
Our products are fully customizable according to users’ specific requirements. By offering a wide range of sizes, various temperature ranges and different surface options, we provide flexible solutions suitable for both small-scale laboratory applications and large industrial projects. This allows our customers to optimize our heater plate systems to achieve the best performance for their needs.
These advantages are just some of the reasons why our heating plates are preferred in industrial applications. These superior features we offer our customers help them achieve their business goals by increasing the efficiency and reliability of their processes.
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“In our research group at Çanakkale Onsekiz Mart University, we are using IDASONIC’s NanoWeaver® Pro electrospinning system for our studies on advanced wound dressings, particularly targeting diabetic wound healing applications. The system’s high precision, stability, and versatility in nanofiber production allow us to design and fabricate functional wound dressings with controlled morphology and tailored properties. This capability significantly enhances the quality and reproducibility of our experimental results. IDASONIC’s NanoWeaver® Pro has become a key technology enabling us to advance our research on innovative solutions for diabetic wound treatment.”
“At the Department of Metallurgical and Materials Engineering, we are using IDASONIC’s UltraSprayer® Pro ultrasonic spray coating system for our research on transparent conductive oxide (TCO) thin films, particularly aluminum-doped zinc oxide (AZO). The system provides excellent control over film thickness, uniformity, and reproducibility, which are critical parameters in our work. With UltraSprayer® Pro, we have been able to produce high-quality AZO coatings with improved optical and electrical properties, directly supporting our research on next-generation functional materials. The device has proven to be a reliable and indispensable part of our laboratory.”
With the introduction of the Electrospinning System into our laboratory, we immediately noticed a positive shift in our research workflow. Its compact structure and intuitive controls allowed our graduate students to start experiments quickly without the need for extensive training. The device enabled us to fabricate uniform and reproducible nanofiber structures, which had been difficult to achieve with traditional methods. For research groups engaged in nanomaterials, biomedical applications, or advanced composites, this system stands out as a practical educational platform and an innovative tool that enhances both teaching and research. In addition, the responsive technical support and service provided gave us extra confidence, ensuring that we could focus on our experiments without interruptions.
“At COBILTUM, we have been using the NanoWeaver® Pro system in our studies on smart windows, wound dressings, drug delivery systems, and various nanofiber-based coatings. The system offers reliable performance and flexibility, which helps us to work on both materials science and biomedical applications. Its capability to produce uniform nanofibers with controlled properties has made it a practical tool for our research group, supporting different projects in a consistent way.”
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The heating plates come in models such as IdaCalor-HT2525 (up to 500 °C), IdaCalor-LT2525 (up to 200 °C), and IdaPlate-RT2525 (non-heated). Surface materials include stainless steel, aluminum, and customizable options like titanium, graphite, ceramic, or bronze.
They employ advanced heating technology and integrated control systems that minimize temperature fluctuations, enable programmable ramp rates, and deliver uniform surface heat for consistent, reliable performance.
These plates are ideal for a broad range of fields, including materials science (heat treatments, thin-film coatings, sintering), chemical and biochemical labs (controlled reactions, solution preparation), polymer/composite curing, pharmaceutical R&D (drug formulation, evaporation), and food sciences (sample drying, food analysis).
They offer fast heating, homogeneous surface temperature, robust construction for long life, user-friendly interfaces, and integration ease with automation systems. Plus, they can be tailored in size, surface material, and temperature capabilities to suit both lab-scale and large-scale industrial needs
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