@book{25251, abstract = {{n the multi-volume work on "Theory of Production", the production models and processes born today from practice are to be derived for the first time on a mathematically justified basis and thus also given the production economy a scientific basis. A constructivist point of view is to be set aside for “we just organized our company that way and it has proven itself”, and so the many descriptive “factory management teachings” are to be replaced. Volume 1 contains the basics of logic, set theory and algebra. The production-relevant conceptions of systems theory are for the first time completely mapped to constructs of formal logic, propositional and predicate logic consistently presented using examples. The predicate logic strikes the bow to the NC program; all parameters of a machining production are derived explicitly. An application example of the set-theoretical concepts is the computer-aided design, the relational calculus is mapped, for example, to product structures, replacement parts and identical parts. The basics of algebra deal in detail with the algebraic systems with internal connections that are important for engineering. Rotating tool magazines are mentioned here as an example. Algebraic systems with external links deal in particular with the handling of matrices. The basics of classifying, ordering and measuring conclude this volume. The basics of algebra deal in detail with the algebraic systems with internal connections that are important for engineering. Rotating tool magazines are mentioned here as an example. Algebraic systems with external links deal in particular with the handling of matrices. The basics of classifying, ordering and measuring complete this volume. The basics of algebra deal in detail with the algebraic systems with internal connections that are important for engineering. Rotating tool magazines are mentioned here as an example. Algebraic systems with external links deal in particular with the handling of matrices. The basics of classifying, ordering and measuring conclude this volume.}}, author = {{Dangelmaier, Wilhelm}}, publisher = {{Springer-Verlag}}, title = {{{Production theory 1}}}, year = {{2017}}, } @book{25252, abstract = {{In the multi-volume work on "Theory of Production", the production models and processes born today from practice are to be derived for the first time on a mathematically justified basis and thus also given the production economy a scientific basis. A constructivist point of view is to be set aside for “we just organized our company that way and it has proven itself”, and so the many descriptive “factory management teachings” are to be replaced. Volume 2 deals with the structures of production. Based on the newly interpreted construct of the “production point”, larger units are composed step by step: single-stage and multi-stage technical quantities. In addition, the production point integrates the subdivision used today in business administration into the object-oriented, activity favoring black box thinking and the functionalist view of consumption and production functions. The conceptual foundations are mainly algebraic input-output systems. Based on the structuring and parameterization options at the production point, alternative organizational concepts for single and multi-level productions are developed. For the engineering sciences, a detailed treatise on the evaluation of production success is particularly important in this volume, which systematically leads to product calculation and the planning of an economically successful production program. Based on the structuring and parameterization options at the production point, alternative organizational concepts for single and multi-level productions are developed. Particularly important for the engineering sciences is a detailed treatise in this volume on the evaluation of production success, which systematically leads to product calculation and the planning of an economically successful production program. Based on the structuring and parameterization options at the production point, alternative organizational concepts for single and multi-level productions are developed. For the engineering sciences, a detailed treatise on the evaluation of production success is particularly important in this volume, which systematically leads to product calculation and the planning of an economically successful production program. }}, author = {{Dangelmaier, Wilhelm}}, publisher = {{Springer-Verlag}}, title = {{{Production theory 2}}}, year = {{2017}}, } @book{25253, abstract = {{In the multi-volume work on "Theory of Production", the production models and processes born today from practice are to be derived for the first time on a mathematically justified basis and thus also given the production economy a scientific basis. A constructivist point of view is to be set aside for “we just organized our company that way and it has proven itself”, and so the many descriptive “factory management teachings” are to be replaced. Volume 3 deals with production processes in time. Ordinal and cardinal amounts of time lead to the system-theoretical definition of a process at the point of production and the possible understandings of processes and states. A main point here is the derivation of the common thinking in series production in terms of performance figures. Starting from the basic form of a time-based production, efficient dynamic events and processes are prepared. This creates the basis for the representation of the state of a general time system and the use of sequential machines. Time-invariant time systems and stochastic productions are the basis of robust production. The point of production and the time system find an ideal symbiosis in the use of finite automatons: A finite number of states together with a limited amount of inputs leads to state-driven production - one of the essential prerequisites for the realization of Industry 4.0. This creates the basis for the representation of the state of a general time system and the use of sequential machines. Time-invariant time systems and stochastic productions are the basis of robust production. The point of production and the time system find an ideal symbiosis in the use of finite automatons: A finite number of states together with a limited amount of inputs leads to state-driven production - one of the essential prerequisites for the realization of Industry 4.0. This creates the basis for the representation of the state of a general time system and the use of sequential machines. Time-invariant time systems and stochastic productions are the basis of robust production. The point of production and the time system find an ideal symbiosis in the use of finite automata: A finite number of states together with a limited number of inputs leads to state-driven production - one of the essential prerequisites for the realization of Industry 4.0.}}, author = {{Dangelmaier, Wilhelm}}, publisher = {{Springer-Verlag}}, title = {{{Production theory 3}}}, year = {{2017}}, } @book{25254, author = {{Helmke, Stefan and Uebel, Matthias and Dangelmaier, Wilhelm}}, publisher = {{Springer-Gabler}}, title = {{{Effektives Customer Relationship Management}}}, year = {{2017}}, } @article{25306, author = {{Büngeler, Anne and Hämisch, Benjamin and Huber, Klaus and Bremser, Wolfgang and Strube, Oliver I.}}, issn = {{0743-7463}}, journal = {{Langmuir}}, pages = {{6895--6901}}, title = {{{Insight into the Final Step of the Supramolecular Buildup of Eumelanin}}}, doi = {{10.1021/acs.langmuir.7b01634}}, year = {{2017}}, } @article{25307, author = {{Reichinger, M. and Bremser, Wolfgang and Dornbusch, M.}}, issn = {{0013-4686}}, journal = {{Electrochimica Acta}}, pages = {{135--152}}, title = {{{Interface and volume transport on technical cataphoretic painting: A comparison of steel, hot-dip galvanised steel and aluminium alloy}}}, doi = {{10.1016/j.electacta.2017.02.013}}, year = {{2017}}, } @inproceedings{25578, author = {{Moritzer, Elmar and Budde, Christopher and Hüttner, Matthias and Krassmann, Dimitri}}, title = {{{Entwicklung einer neuartigen Fügetechnik für Organoblech-Hybridverbindungen}}}, year = {{2017}}, } @inbook{19514, author = {{Backe-Neuwald, Dorothea and Berkemeier, Martin and Büker, Petra}}, booktitle = {{Lehrerausbildung für Inklusion – Fragen und Konzepte zur Hochschulentwicklung“. Tagungsband zum Siegener Kongress „LehrerInnenbildung für Inklusion}}, editor = {{Greiten, Sylvia and Geber, Georg and Gruhn, Annika and Köninger, Manuela}}, pages = {{186--195}}, publisher = {{Waxmann}}, title = {{{Inklusion vom Kind aus denken: Einsatzmöglichkeiten des Vielfaltstableaus im bildungswissenschaftlichen und fachdidaktischen Lehramtsstudium}}}, year = {{2017}}, } @inbook{19515, author = {{Bührmann, Thorsten and Büker, Petra and Höke, Julia}}, booktitle = {{Profession und Disziplin - Grundschulpädagogik im Diskurs. Jahrbuch Grundschulforschung. Band 22.}}, pages = {{212--217}}, publisher = {{Springer VS}}, title = {{{Wir sind jetzt alle Lernbegleiter“ – Nivellierungstendenzen in der multiprofessionellen Teamarbeit im Übergang Kita-Grundschule}}}, volume = {{22}}, year = {{2017}}, } @misc{19516, author = {{Büker, Petra}}, booktitle = {{Zeitschrift für Grundschulforschung}}, pages = {{177--179}}, title = {{{Heike Deckert-Peaceman und Gerold Scholz: Vom Kind zum Schüler. Diskurs-Praxis-Formationen zum Schulanfang und ihre Bedeutung für die Theorie der Grundschule.}}}, volume = {{10 Jg. H.1}}, year = {{2017}}, }