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Questions & Answers Question: How easy is the system installation? Answer: Advanced Heating Technology heating mats are extremely simple to install. In the case of installation under tiles the heating mats are simply laid directly between the sub-floor and tile. The same materials used for laying tiles are used for bonding the electric radiant heating mats to your sub-floor. In the case of installation under wood or parquet floors, the installer lays the heating mats on the sub-floor and lays the wooden elements directly on the mats in the same manner as a standard wood installation. A certified electrician can complete the connection between the heating mats and the electrical circuit. No time-consuming calculations, labor or additional materials are required. Question: How efficient are the heating mats under wooden or carpeted floors? Answer: Because Advanced Heating Technology mats are constructed of ultra-thin amorphous ribbon 1/1000th on an inch (25 microns) heat is not absorbed by the metal. It is therefore immediately transferred to the floor area and the ribbon temperature remains relatively low at around 82-86 F. This attribute is crucial under wood and carpet installations which can be easily damaged by higher temperatures. Question: What are the safety measures against electrical shock hazard? Answer: We have placed maximum emphasis on the performance of the electrical resistance of our coating. Our product is a class 2, double insulation product. As such it has been tested and found to comply with UL 1693 and CNL-CSA C22.2 No 217 and L-13. The installation complies with NEC- National Electrical Code -part J. This means that the product has sufficient electrical resistance according to the strictest standards. We also test each unit in the production line for electric withstand of 2500 volts, again- according to the relevant UL AND CNL standards for unit inspections in the production line. The electric withstand testing is repeated on each unit after installation using a Megger tester, and the measured resistance value is recorded on the warranty card. Question: Why are certain other underfloor heating elements (mainly heating wires) constructed with a metallic sheath or shield around the heating element, while Advanced Heating Technology heating elements are not? Answer: The fact is that the additional metallic shield is not a significant factor in the prevention of electrical shock hazard. The risk at issue is a person (a baby, a child or adult) inadvertently punching a metallic object like a nail or needle through the floor covering (carpet or wood) and into the electricity carrying metallic heating ribbon. The resulting physical effects on the person will be similar to the effects created by sticking the same object into a common electrical socket in the house. In the latter case there is no other way to protect the person from a shock hazard except by using a GFCI (Ground Fault Circuit Interrupter). All underfloor heating mats needs to be connected to a GFCI which is an integral part of our thermostats line. This is the reason why all the applicable standards, codes and practices require the mandatory incorporation of a GFCI in the electrical circuitry of an electrical under-floor heating system, while leaving the alternative of including a metallic shield around the heating element as a design consideration for the element manufacturer. Note that most heating wire manufacturers include metallic shield for mechanical strength considerations for more than safety reasons. Advanced Heating Technology flat ribbon has an inherent strength (because of the flatness and the large horizontal cross section) so that metallic strengthening is not required. |
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Question: What are the recommended GFCI characteristics to be used with the system? Answer: Ensure that the electric circuit that supplies electricity to the underfloor heating system is equipped with a 30 mA ground fault current interrupter (GFCI). For wet areas ensure that the electric circuit that supplies electricity to the heating system is equipped with a 5 mA ground fault current interrupter (GFCI). Wet areas include: saunas, bathrooms, and kitchen areas within 20 inches (50 cm) of sinks or any metallic kitchen appliance and utility rooms. Our thermostats include a built-in GFCI. Question: What is an amorphous solid? Answer: An amorphous solid has the random internal structure of a liquid. In contrast to an amorphous solid, a crystalline solid possesses an ordered, periodic internal structure forming a latticework. Usually, if you cool a liquid it solidifies into a crystalline structure. However, if cooling is very rapid then the liquid solidifies without forming any crystalline structure. This is true for liquid (melted) multi-component metallic alloys (alloys which include two or more kinds of atoms). Question: What is an amorphous metallic alloy ribbon? Answer: Amorphous metallic alloys, often referred to as metallic glasses, are relatively new materials, mainly available in the form of thin ribbons. They are prepared from molten metallic alloys by a rapid cooling technique. In this technique a ribbon of molten metallic alloy is poured onto a rapidly rotating copper drum. Due to the thinness of the ribbon 20 (65.6) to 30(98.4) microns (micro foot), it cools very quickly (at a rate of about 1,000,000 degrees/second). Since solidification occurs so quickly, no crystalline structure has any chance of forming. Instead, an amorphous solid, in the form of a very thin ribbon, is created (the width varies from a few millimeters (milli-foot) to 10cm (0.328 foot). Question: What's special about amorphous ribbons? Answer: The lack of any crystalline structure in amorphous ribbons is special. However, other properties of the material are affected by this lack of crystalline structures. The boundaries between crystals in crystalline solids typically cause most of the material's faults. The homogeneous, non-boundary structure of amorphous metallic alloys provides unique mechanical, anti-corrosion, wear resistant, and magnetic properties. It makes amorphous metallic alloys superior in many ways to the more common crystalline metals. Question: Why is Advanced Heating Technology amorphous ribbon an excellent heating element for moderate temperature heaters? Answer: Due to the absence of crystalline structure, amorphous ribbons have higher electrical resistance than crystalline solids of the same composition. Together with the physical form of the ribbon, which provides a low mass to surface area ratio, it makes the ribbon a very attractive candidate as a heating element. Why? The explanation is very simple: energy transfer from any heating element is proportional to its surface area and the temperature difference between the heater and its environment. The larger the surface area, the lower the temperature difference needed to transfer energy from the heater to its environment. Since the surface area of the ribbon is relatively large (compare it with the surface area of a conventional wire used in many heaters) it is able to efficiently transfer heat to its environment at lower temperatures. In a domestic heating environment, lower temperature means a healthier environment and greater safety and durability. |
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Question: What's unique about Advanced Heating Technology amorphous ribbons? Answer: All other producers of amorphous ribbons are targeting electromagnetic applications using the ribbon as soft magnetic material for various electronic components. Advanced Heating Technology is the only company using amorphous ribbons for heating applications (US Patent 5,641,421). The Advanced Heating Technology ribbons are more reliable, with higher electrical and corrosion resistance. Their main characteristics are:
Question: Why are Advanced Heating Technology mats of special interest for underfloor heating? Answer: Many features of Advanced Heating Technology heating mats make them attractive for surface heating: Efficient heat transfer because of the large surface area and the ultra-thinness of the ribbons that prevents heat absorption by the metal. This enables the mats to be used under wood and carpets. They eliminate risk, never heating too much to change the characteristic of the metal. Faster and more efficient heating because the mats can be placed directly under the surface in most cases (while most of the other systems need to be embedded in cement due to their high temperature.) Low heating inertia because of the low mass of the ribbon. Especially in a more rapidly fluctuating (on/off) mode, you can expect energy savings due to both low heating inertia and efficient heat transfer. Possibility of using cheaper/less insulating material because of the lower heating temperature used. Very convenient physical shape, allowing fast and easy installation. Higher reliability because of the low heating temperature, high mechanical strength and corrosion resistance properties. |
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