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__%%( color: #003399; font-size: 30px;)Matrix Tool Introduction:__
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__%%( color: #003399; font-size: 30px;)Matrix Tool:__
One of the hindrances of using recyclate is the challenge of finding suitable recyclate grades for specific products. The correlation between product/process requirements is difficult to make, and in most cases, field studies need to be carried out to validate the material selection. In this perspective, Matrix tool helps to find suitable recyclate (recycled plastic material or rPM) for converters or producers who want to replace virgin plastics. Furthermore, recyclate suppliers or traders can use this tool to sell their materials more efficiently.
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One of the hindrances of using recyclate is the challenge of finding suitable recyclate grades for specific products. The correlation between product/process requirements is difficult to make, and in most cases, field studies need to be carried out to validate the material selection. In this perspective, Matrix Tool helps to find suitable recyclate (recycled plastic material or rPM) for converters who want to replace virgin plastics. Furthermore, compounders and material traders can use this tool to sell their materials more efficiently.
__%%( color: #003399; font-size: 18px;)Advantages of the Matrix Tool:__
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[{Image src='Matrix/Tool-benefits-19.JPG'}]
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__%%( color: #003399; font-size: 18px;)Required Skills: __
__%%( color: #003399; font-size: 18px;)Required Skills and data: __
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- Knowledge of material properties
- Basic knowledge of material properties
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- No programming or data science knowledge needed
- Material properties of currently used virgin materials
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__%%( color: #003399; font-size: 24px;)Tool Guideline and Access__
__%%( color: #003399; font-size: 18px;)Tool Guideline and Access__
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- Before you get started, take a look at the :[guidelines | matrix//matrix-guidelines.pdf] and make yourself familiar with how to use the tool.
- Before you get started, take a look at the [guidelines | matrix//matrix-guidelines.pdf] and make yourself familiar with the functionalities.
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- To acces the tool you will need an account. If you are interested in using the tool contact the admin who will create an account for you. After that, you can access the tool directly at [https://matrix.sis.cs.uos.de/login.xhtml] using your account details.
- To access the tool you will need an account. If you are interested in using the tool contact the admin who will create an account for you. After that, you can access the tool directly via [this link|https://matrix.sis.cs.uos.de/login.xhtml] using your account details.
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- You can also access the tool via github at [https://matrix.sis.cs.uos.de/login.xhtml].
- You can also download the tool source via [GitHub|https://github.com/cslab-hub/Di-Plast-Matrix-Tool-2.0].
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__%%( color: #003399; font-size: 24px;)Use Case/Problem:__
__%%( color: #003399; font-size: 24px;)Your contact for the Matrix tool:__
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Martine Bonnema [mailto:m.bonnema@polymersciencepark.nl]
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Do you face problems in finding the right recyclate or rPM (recycled plastic material) for your virgin material or are you looking to increase the publicity of your recyclate? The matrix tool can help you in this regard. Some of the use cases of the Matrix Tool are as follows:
-One producer wanted to use recyclate HDPE instead of virgin HDPE in their product. In the beginning, the virgin material properties were determined through tests. Those properties were put into the matrix tool. After that, the tool provided a ranking of the potential PE or PE/PP recyclates using the database. From the ranking, 3 recyclates were chosen and the suppliers were contacted. The recyclates were ordered and tested for verification of their properties. After the tests, one out of the three recyclates was recommended for their product.
-One supplier sells polyolefins, ABS and PS recyclates. They are able to see the demand on the "Request Tab" of the matrix tool. In additon, they can see the overview of the producer requests using the filters. This in turn also helps them to optimize their recyclates according to the demand. They expect to increase the sale of their materials to several hundred tons per year using the tool.
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European Commission has the goal of reaching a circular economy and plastics have a crucial role in reaching this goal. Plastics are used in many sectors such as packaging, building and construction, textiles, consumer products, transportation, electrical and electronics, and so on. Thus it is important to close the plastic loop to reach a sustainable and resource-efficient economy. One of the ways of achieving the goal is to use recyclate (recycled plastic) as an alternative to the virgin material for new plastic products. Although there is a high demand for recyclate material in the market, a very small amount of product is made from recyclate. This indicates the presence of some challenges in the uptake of the recyclate. Therefore, the main goal of the Interreg Di-Plast Project was to increase the uptake of recyclate among the companies. The Matrix Tool was developed for this purpose. Deatils about the Di-Plast Project can be found at [https://www.nweurope.eu/projects/project-search/di-plast-digital-circular-economy-for-the-plastics-industry/]
European Commission has the goal of reaching a circular economy and plastics have a crucial role in reaching this goal. Plastics are used in many sectors such as packaging, building and construction, textiles, consumer products, transportation, electrical and electronics, and so on. Thus it is important to close the plastic loop to reach a sustainable and resource-efficient economy. One of the ways of achieving this goal is to use recyclate (recycled plastic) as an alternative to virgin material for new plastic products. Although there is a high demand for recyclate material in the market, a very small amount of products is made from recyclate. This indicates the presence of some challenges in the uptake of the recyclate. Therefore, the main goal of the Interreg Di-Plast Project was to increase the uptake of recyclate among the companies. The Matrix tool was developed for this purpose. Details about the Di-Plast Project can be found at [Di-Plast Website|https://www.nweurope.eu/projects/project-search/di-plast-digital-circular-economy-for-the-plastics-industry/]
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__Recyclate Request:__ This section shows the current demand for recyclate batches with a specified set of properties that have not been resolved yet. Suppliers can use this information to modify their materials to according to these specifications.
__Recyclate Request:__ This section shows the current demand for recyclate batches with a specified set of properties that have not been resolved yet. Suppliers can use this information to modify their materials according to these specifications.
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__%%( color: #003399; font-size: 18px;)Advantages of the Matrix Tool:__
__%%( color: #003399; font-size: 18px;)Explanation of Material Specifications:__ 
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[{Image src='Matrix/Tool-benefits-19.JPG'}]
__Polymer Type:__ This describes the main type of polymer present in the material. Some common types of polymers are:
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__%%( color: #003399; font-size: 18px;)Explanation of Commonly Used Material Specifications:__ 
__Polymer type:__ This indicates the type of polymer present in the material. Some typical type of polymers are:
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- PA (Polyamide)
- PA 6 (Polyamide 6)
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- PA 6.6 (Polyamide 6.6)
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__Process technology:__ This indicates the technology used in converting the raw materials into semi-finished or finished products such as buckets, automobile parts, crates, tanks, pipes, bottles etc. Some typical process technologies are:
__Process Technology:__ This indicates the technology used in converting raw materials into semi-finished or finished products such as buckets, automobile parts, crates, tanks, pipes, bottles, etc. Some typical process technologies are:
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__Melt Flow Index:__ This property gives an indication of the fluidity of the molten polymer. It is an important value for the prediction of processing behaviour and material selection. The MFI could be seen as a measured viscosity at a single temperature and shear rate. It is often measured at a specified temperature and weight. However, due to the fact that the viscosity of polymers is shear-dependent, the MFI could also be measured at multiple weights (shear rates).
__Melt Flow Index:__ It indicates the fluidity of the molten polymer. This property is important for the prediction of processing behavior and material selection. The MFI could be seen as a measured viscosity at a single temperature and shear rate. It is often measured at a specified temperature and weight. However, since the viscosity of polymers is shear-dependent, the MFI could also be measured at multiple weights (shear rates).
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__Impact Strength:__ It denotes the energy needed for the fracture of a material. The greater the value, the more resistant the material is to breaking upon impact. It can be measured via Charpy or Izod methods. Samples could be measured notched or unnotched. Notched values are lower than unnotched values due to the limitation of energy dissipation throughout the sample. Furthermore, the impact strength can be measured at different temperatures to predict impact behavior in different environments.
__Impact Strength:__ It denotes the energy needed for fracturing material. The greater the value, the more resistant the material is to break upon impact. It can be measured via Charpy or Izod methods. Samples could be measured notched or unnotched. Notched values are lower than unnotched values due to the limitation of energy dissipation throughout the sample. Furthermore, the impact strength can be measured at different temperatures to predict impact behavior in different environments.
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__E-Modulus:__ It denotes the stiffness of a material in the tensile direction. For blown films this value is measured in the machine direction and transverse direction.
__E-Modulus:__ It denotes the stiffness of a material in the tensile direction. For blown films, it is measured in the machine direction and transverse direction.
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__Strain at Yield:__ It denotes the strain (percentage of elongation) of the material at its maximum elastic point. Deformation lower than this value is elastic, meaning the material can return to its original shape. Deformation greater than this value is plastic, meaning the material is permanently deformed. For blown films this value is measured in the machine direction and transverse direction.
__Strain at Yield:__ It denotes the strain (percentage of elongation) of the material at its maximum elastic point. Deformation of a product lower than this value is of elastic nature, meaning the material can return to its original shape. Deformation greater than this value is of viscous nature, meaning the material is permanently deformed. For blown films, it is measured in the machine direction and transverse direction.
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__Strength at Yield:__ It is the applied stress at yield strain. This value is the maximum stress that can be applied to a material before plastically deforming. For blown films this value is measured in the machine direction and transverse direction.
__Strength at Yield:__ It is the applied stress at yield strain. This value is the maximum stress a material can handle before it yields. For blown films, it is measured in the machine direction and transverse direction.
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__Strain at Break:__ It denotes the strain (percentage of elongation) of the material at its breaking point. The strain at break gives information about the ductility of a material. For blown films this value is measured in the machine direction and transverse direction.
__Strain at Break:__ It denotes the strain (percentage of elongation) of the material at its breaking point. The strain at break gives information about the ductility of a material. For blown films, it is measured in the machine direction and transverse direction.
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__%%( color: #003399; font-size: 24px;)Contact Person for the Matrix tool:__
__%%( color: #003399; font-size: 18px;)Use Case/Problem:__
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Do you face problems in finding the right recyclate for your virgin material or are you looking to increase the publicity of your recyclate? In this case, the Matrix tool is the perfect candidate for you. Over the years the tool has been used by several companies (both converter and supplier). Some of the use cases of the Matrix tool are as follows:
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Martine Bonnema [mailto:m.bonnema@polymersciencepark.nl]
-One converter wanted to use recyclate HDPE instead of virgin HDPE in their product. In the beginning, the virgin material properties were determined through tests. Those properties were put into the Matrix tool. After that, the tool provided a ranking of the potential PE or PE/PP recyclates using the database from the "recyclate supplies" section. From the ranking, 3 recyclates were chosen and the suppliers were contacted. The recyclates were ordered and tested for verification of their properties. After the tests, one out of the three recyclates was recommended for their product.
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-One supplier sells polyolefin recyclates. They can see the demand in the "recyclate requests" section of the Matrix tool. In addition, they can see the overview of the producer requests using the filters. This in turn also helps them to optimize their recyclates according to the demand.
This page (revision-285) was last changed on 14-Sep-2022 10:00 by LeonidTop