@phdthesis{4919,
  abstract     = {{AbstractThe industrial production ofwood-based compo-sites (WBCs) features the core processes in theforming and press line,which are characterisedby densification and the curing of resin-blended furnish materialto obtain a panel from a formed mat in a continuous or batch-wise process.Here, the reliable measurement of process parameters and panel properties is indispensablefor moni-toring and controllingproductionand quality.The in-plane area density(𝜌A)of the mat and the raw density(𝜌)of the panel,along withits vertical rawdensity  profile  (RDP),aretypically determined through nondestructivemeans of radiometric de-vices.X-ray  systems  for  density  measurement on  WBCsare commonly  usedin both industry and research. Theyfollow a similar basic princi-pleof radiation transmissionwith specificsetups depending  onthe  measuring  taskat  hand.  De-tector  signalsare  evaluated  regarding relative radiation  transmission,  which  is  well-knownto followBeer’s  law  of  exponential  attenuation.Note here, particular conditions regarding radia-tion  (energyand  beam  geometry)  and  material properties  (consistent  and  homogeneous)  are expected. These conditions, however, cannot be consistently  achieved  in  applied  radiometric  in-vestigationson  WBCs [...]}},
  author       = {{Solbrig, Konrad}},
  keywords     = {{density measurement, radiation transmission, porous low-Z composite material, true density, elemental composition and ash content, effective atomic number, mass attenuation coefficient, X-ray energy spectrum, law of attenuation, beam hardening and radiation build-up, radiation-physical interdependencies, Dichtemessung, Durchstrahlung, poröser Verbundwerkstoff, Reindichte, elementare Zusammensetzung und Aschegehalt, effektive Ordnungszahl, Massenschwächungskoeffizient, Röntgenspektrum, Schwächungsgesetz, Strahlaufhärtung und Strahlungsaufbau, strahlungsphysikalische Wechselbeziehungen}},
  pages        = {{453}},
  publisher    = {{Staats- und Universitätsbibliothek Hamburg Carl von Ossietzky }},
  title        = {{{Applied Investigations on Wood-Based Composites in the Context of X-Ray Densitometry}}},
  year         = {{2019}},
}

@inproceedings{552,
  abstract     = {{Since additive manufacturing (AM) is continuously growing, the influence of processing conditions and setup parameters on microstructural and mechanical properties of additively manufacturedcomponents needs to be clarified. The paper discusses an experimental approach for the identification of influencing parameters in Selective Laser Melting; this consists of an evaluation of the mechanical and physical properties of final parts, depending on the chosen process parameters. The Design of Experiments is used to get valid results from a limited number of experiments. The research work focuses on the application of a Definitive Screening Design to identify the most important influencing parameters: Several parameters of the hatch and the contour exposure are varied, as well as the position and orientation of the samples in the build chamber. A maraging steel and a CoCr alloy are used, and the mechanical and physical properties of the samples are evaluated. The interdependencies between the variation of the factors and the observed properties are analyzed.}},
  author       = {{Simoni, F. and Huxol, Andrea and Villmer, Franz-Josef}},
  booktitle    = {{Production Engineering and Management}},
  editor       = {{Villmer, Franz-Josef and Padoano, Elio}},
  isbn         = {{978-3-946856-03-0}},
  keywords     = {{Additive manufacturing, Process parameters, Design of Experiments, Density measurement}},
  location     = {{Lemgo}},
  number       = {{1}},
  pages        = {{43--55}},
  title        = {{{Analysis of Influencing Parameters on Mechanical and Physical Properties of SLM Parts}}},
  year         = {{2018}},
}