115 research outputs found

    CORRECTION OF DATA MEASURED WITH A ROTATIONAL VISCOMETER IN THE CASE OF NON-NEWTONIAN LIQUIDS

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    Newtonian and non-Newtonian substances were investigated with a rotational viscometer, featuring cylinder pairs of different radius ratio. Flow-curves calculated· from the torque-angular speed data measured with the generally used relationship, valid only for Newtonian liquids, did not coincide for non-Newtonian liquids in the case of different cylinder pairs, and the deviation of the curves was the larger, the more the behaviour of the liquid differed from the Newtonian behaviour. Transforming data with Krieger-Elrod's [7] equation, the points measured with different cylinder pairs were lying along a common flow curve

    Synthesis of Polylactic Acid (PLA) by Polycondensation Method

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    The Polylactic acid (PLA) is compostable and natural renewable sourced plastic type. Its mechanical properties quite similar to the PET, therefore the PLA is a good alternative for strongly ruled food industrial application. The PLA only has one critical attribute – the relatively low glass transition temperature. According to the relevant literature the glass transition of PLA is in the range of 40-70°C. In light of this fact, this material can be used only in that segments of food industrial field where the packaging process temperature are under of the lower limit of Tg range. The actual Tg of a material is highly depends on the molar mass and material structure, therefore the molar mass and the structure of material should be designed according to the future requirements of application and procedures

    Polylactic Acid as a Potential Alternatives of Traditional Plastic Packagings in Food Industry

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    Huge quantity of synthetic polymers is used as packaging materials in different fields of food industries. A significant part of these polymers applied as a primary, direct food contact construction. The scoped application area is the sweet industry. In this field Polystyrol (PS), Polypropylene (PP) and Polyethylene terephthalate (PET) have used but during the last fifteen years the usage of PET has been grown. In one hand the price of this material is efficient, form other hand the PET is the one of the most safe (for food industrial applications) petrol chemical plastic that can be used as primary or secondary food contact packaging material. To maximize the customer safety and minimize the environmental impact of traditional PET, a new bio-sourced and bio-degradable alternative polymer aimed to be used in this special food industrial segment. One of the potential alternatives is the Polylactic acid (PLA) that would be a possible substitute as it is compostable and produced from renewable sources and has good physical and mechanical properties [1]

    Two Examples on How FDO Types can Support Machine and Human Readability

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    FAIR Digital Objects (FDOs) are typed by a well described set of attributes, where attributes are key value pairs with a key, which refers to a syntactic description of the value. Often the description of the set of attributes is called also profile. The exact description of the attribute keys is obviously crucial for machine actionability on one hand. On the other hand an exact description of attributes can be a way to allow also human readability of the used keys. Furthermore it can often integrate legacy attribute sets that are provided inside repositories for the description of their digital objects.In the following we show two examples of FDO types with their attributes from different viewpoints. The two examples are: the Persistent Identifiers (PID) for Instruments example and the DARIAH (see https://de.dariah.eu) use case. In both cases the Handle system is used for the persistent identifiers, the FDO record is provided by the Handle record of the PID and the attributes can be found here as type-data pairs in the phrasing of the Handle system.1 Example 1: PID for InstrumentsThe PID for instrument example goes back to the development of kernel metadata, which is seen as minimally required to reference and describe scientific instruments Stocker et al. 2020. The value space for the attributes here often contains hierarchical objects and can also be lists of attributes.An example of such an attribute definition is that of a single manufacturer of an instrument that occurs in a list of manufacturers here: http://dtr-test.pidconsortium.eu/#objects/21.T11148/7adfcd13b3b01de0d875.1.1. The Handle Record for a Full PID for InstrumentsIn this case one uses the references to the attribute definitions as keys for the values, which are often lists or objects. The Handle Record for a full attribute list of a PID for Instruments can be obtained from the Handle Proxy with https://hdl.handle.net/21.T11998/0000-001A-3905-1?noredirectThe structure of this FDO record is defined as a type definition at the ePIC Date Type Registry Schwardmann 2020 with http://dtr-test.pidconsortium.eu/objects/21.T11148/17ce618137e697852ea6 . This way we can also refer to this structure definition in a qualified key value pair like TYPE/0.TYPE and then use as keys in the FDO record the names as they are given for keys in this structure. This way an FDO record becomes a human readable form without loosing any machine readability. For further details see: https://hdl.handle.net/21.T11998/0000-001A-3905-8?noredirectIn both cases the full instrument descriptions are completely stored in the Handle database of the Handle PID service. The PID itself is a metadata object and can be seen as an FDO of its own.1.2. Type for a PID4Inst based on AttributesThe type for such FDOs is given via proxy https://hdl.handle.net/21.T11148/17ce618137e697852ea6 in the ePIC DTR1.3. PID4Inst in a RepositoryAnother option is to store the metadata objects of instrument descriptions in repositories. In this case a schema is needed to describe the metadata elements that are needed for the description. The existing attribute definitions could be bundled here into a single complex definition, which is syntactically almost identical to the type definition for instruments.From such a complex definition one could derive a schema for the repository entries. In this case the schema was directly derived from the type, which is conceptually different from attribute definitions, but syntactically similar and therefore exploitable by the same services. The result of the schema derivation can then be directly fed into the ingest module of repositories, in the following figure for example into the CORDRA schema module for the definition of attribute types: https://hdl.handle.net/21.T11148/c2c8c452912d57a44117An example of such a PID for instrument object in a repository is given at https://vm11.pid.gwdg.de:8445/objects/21.11145/8fefa88dea40956037ec2. Example 2: The DARIAH Use Case This example evolved in the humanities in the DARIAH project about five years ago with the DARIAH repository (Kálmán et al. 2016, DARIAH-DE 2016). The Handle record structure was created far before FDO records have been discussed. It uses key value pairs with human readable keys as the type and provides relatively atomic values. For humans the key here is a description for the value space that can be expected: https://hdl.handle.net/21.11113/0000-000B-CA4C-D?noredirectThe use of human readable keys does however not match the goal of machine readability of this description. Additionally it has the risk of uncertainty and ambiguity.2.1. Attribute DefinitionsIn order to make these attributes machine readable, attribute definitions for the allowed value spaces were needed and can be found in the ePIC data type registries. The following basic information type for an email address can be used as the reference key for the value space given for the 'RESPONSIBLE' type above for instance: https://dtr-test.pidconsortium.eu/#objects/21.T11148/e117a4a29bfd07438c1eAttribute definitions for all attributes used in the DARIAH example are given in the ePIC data type registrie. This way one is able to define a type for the DARIAH Handle records.2.2. An FDO Type of Legacy Repository RecordsSuch a type definition is given at: https://dtr-test.pidconsortium.eu/#objects/21.T11148/f1eea855587d8b1f66daIf this type is the known type of all objects in the DARIAH repository, the references to the keys are named very similar the human readable form of the Handle record.Usually and as we have seen in the previous PID4Inst example the type of the FDO would be another attribute of the FDO. This would require an adaption of the attributes of all digital objects of the DARIAH repository. But since all digital objects of the DARIAH repository follow the same profile and all its digital objects have the same PID prefix, it would be sufficient to implement this additional attribute at the prefix level. Together with a rule that attributes on a lower level dominate attributes on a higher level, this additional prefix attribute makes FDOs out of legacy digital objects that have been defined a long time ago.3. PresentationIn the presentation we will describe based on the two examples above how machine and human readability can be supported at the same time by FDO types and discuss the implementation of hierarchical type definitions as the basic infrastructure for FAIRness of data in more detail

    Pure powers in recurrence sequences

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    How FDO attributes can support machine- and human-readability? - a description along three examples

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    Based on the notion of a FAIR Digital Object (FDO) record, which consists of key-value pairs as attributes that are precisely defined in a Data Type Registry and selected in a profile, we show three examples of FDOs from different viewpoints how FDO records can be implemented as Handle PID records. As references to the attribute definitions, the keys determine the value space of the attribute. In the first two examples, the profiles enable human-readable keys and legacy digital objects to be integrated into FDO records. How legacy metadata from IANA media types that can be transformed into structured metadata of appropriate attribute definitions that then can be applied in profiles and FDO records, is described in the third example
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