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The Relationship between the Hot Tack of Packaging Material and Filling Efficiency

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Labthink International,Inc.

200 River's Edge Drive, Medford, MA, 02155, USA

Original Press Release

The Relationship between the Hot Tack of Packaging Material and Filling Efficiency

Press release date: May 13, 2014

The hot sealing performance of packaging materials is the main parameter to assess packaging ability of materials. It includes the hot tack and ultimate strength. Hot tack has been used to check the strength to peel off hot sealing parts, when shortly after hot sealing (not cold yet). Ultimate strength has been used to check the strength to peel off the hot sealing parts, when the parts have already gone cold. These parameters vary hugely with one material. However, the proper application of these parameters usually affects the choices of packaging materials and the actual filling efficiency.

How to choose the best hot seal parameters of product line by making use of hot tack testing? The relationship between hot tack and hot sealing parameters of product line is going to be introduced in the following paragraph. It is the case of Labthink helping its clients to test product.

The client is an East Asian food production company. The company wanted to make a choice between A and B film, which share similar performance parameters. The company wanted a film to satisfy the requirement of product line and make the product line more efficient. The hot sealing side of material, the hot sealing time and pressure are all fixed. Client required that the hot sealing temperature to be no more than 133°C and the hot tack to be no lower than 2N. Given the conditions above, the hot sealing time should be as short as possible and energy saving.

We used Labthink i-Thermotek 2500 hot tack tester (http://www.labthinkinternational.com/product/i-thermotek-2500-hot-tack-tester.html) to test the hot adhesive of A, B two types of films. Hot sealing time was set to 0.3s, 0.5s, 0.7s; sealing temperature was set to 115 °C, 118 °C, 121 °C, 124 °C, 127 °C, 130 °C, 133 °C. Other parameters were set in accordance with customer requirements. The width of the test sample was 25mm as customer required.

In fact, there is a best temperature point in order to achieve the best hot adhesive of film materials. When the hot sealing temperature rises above the best temperature point, the hot adhesive will drop under the best point. From the figure 1 and 2 we can see that the best hot sealing temperature is about 130 °C, while B's best sealing temperature is about 127 °C.

Based on data of film A, when the hot sealing time is 0.3s, the hot adhesive did not reach the requirement of client; when the hot sealing time is 0.5s, sealing temperature at 127 °C ~ 133 °C, the material could just reach the requirement of client; but when the hot sealing time is 0.7s and the temperature is between 127 °C ~ 133 °C, the hot adhesive of the material could well satisfy the requirement. Thus in the case of film A, hot sealing time of more than 0.5s and temperature of 127 °C ~ 133 °C can satisfy the need of clients. But to film B, in the same condition of film A, film B showed better hot adhesive than film A. when the hot sealing time is no less than 0.3s and the temperature is more than 118 °C ~ 133 °C, film B can satisfy customer’s need for hot adhesive. As the time of hot sealing increased, the time need for hot sealing showed a significant drop. When the not sealing time reached 0.7s and temperature between 115 °C ~ 133 °C, film B could be very satisfactory.

Referring to the above test data, we believe that the film should be B, and the production line sealing parameters can be set: sealing time of 0.3 s ~ 0.5s, sealing temperature of 118 °C. Of course, sealing temperature should also be further tested to determine the best value. It should be noticed that there values should be somehow over the margin in order to avoid uneven sealing, which could be caused by mechanical or material problem. Simply from the point of view of materials, we believe film A would lower the efficiency of filling and raise the energy cost of product line. However further analysis should be base on some other issues like material cost and the best efficiency of the who product line.

Labthink International, Inc.
200 River’s Edge Drive
Medford, Massachusetts, 02155, U.S.A.
Phone: +1-617-830-2190
FAX: +1-781-219-3638
Email: sales@labthinkinternational.com
Website: http://www.labthinkinternational.com

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