High temperature limits of test chambers
There are many types of test chambers, but they all high and low temperature limits. Let's take a look at the typical high temperatures thresholds and why they exist.
Test chambers usually have wire heaters made of a material called Nichrome. By placing successive loops of heater wire, a greater amount of heat that is generated. The result looks a lot like the inside of a toaster. Fans circulate the air past the heaters, so the samples in the chamber are not exposed to radiant heat. It is very easy to add heaters and increase the speed and/or high limit of a chamber.
Hongzhan chambers typically have a high temperature limits under 200°C. Here is a break-down of why a chamber's high temperature limit exists:
Limit to 85°C: Our panelized walk-in chambers cannot go higher than 85. These units use expanded urethane for insulation. Urethane can start to degrade at temperatures above 85°C. For walk-in customers who need higher temperatures, we switch to a fiberglass insulation. The benchtop customer can switch to another model. Since fiberglass insulation isn't rigid, we have to include an angle-iron frame, so we call these models one-piece or solid-construction.
150°C: There are two reasons we may limit a chamber to 150°C. First, there may be a limitation of the materials used inside the chamber. Secondly, for extremely fast chambers, we may limit the high temperature to avoid problems with accidentally tripping overheat protection devices.
170-180°C: Most models stop at this temperature range. There is a risk of burning the oil inside the refrigeration's cooling coil.
210°C: Because thermal shock chambers separate the hot and cold sides, we don't have to worry about the refrigeration oil. However, temperatures around 200°C are approaching the limit of several materials used in constructing the chamber.
300°C: Significant changes to the construction and materials of the chamber can allow an even higher temperature. In this case, the refrigeration coil is isolated from the chamber by dampers, so that it is only exposed when required. This would be strictly a custom-built chamber.
试验室的高温极限
有许多类型的测试室,但它们都高和低温极限。让我们来看看典型的高温阈值和它们存在的原因.。
试验室通常有丝加热器镍铬合金材料制成的。通过放置加热器导线的连续循环,产生更多的热量.。结果看起来很像烤面包机里。风扇通过加热器循环空气,所以室内的样品不暴露在辐射热中.。这是很容易添加加热器和增加的速度和/或一个腔室的高限制。
宏展试验箱通常具有高的温度限制在200°C.打破为什么室的高温极限存在:
限制到85°C:我们的模板间室不能高于85。这些单位使用膨胀聚氨酯绝缘。氨基甲酸酯可以降低85°C.对预约的客户谁需要更高的温度以上的温度,我们切换到一个玻璃纤维绝缘。台式用户可以切换到另一个模型。由于玻璃纤维绝缘不是刚性的,我们必须包括角钢框架,所以我们称这些模型的单件或固体结构。
150°C:有两个原因,我们可能会限制一个腔室到150°C.首先,可能有一个限制的材料在室内使用。其次,对于非常快的腔室,我们可能会限制高温,以避免意外跳闸过热保护装置的问题。
170-180°C:大多数模型停在这个温度范围。制冷冷却盘管内有油燃烧的危险。
210°C:由于热休克室分离冷热双方,我们不必担心冷冻油。然而,约200°C的温度接近的限制,用于建造室的几种材料。
300°C:显着变化的结构和材料的腔室可以允许更高的温度。在这种情况下,制冷线圈是由阻尼器隔离的腔室,所以它只在需要时暴露。这会是完全定制室。
