Concentration Dependence of Size, Shape, and Orientation of Copolymers, 1 – Linear Diblock and 4‐arm Hetero Star Polymers
- M. M. NardaiG. Zifferer
- 23 September 2011
Materials Science, Chemistry
Properties of star-branched ( co ) polymers ( # 70116 )
- G. ZiffererM. M. Nardai
- 2010
Materials Science, Chemistry
Solid‐Liquid Adhesion Energies of Composite Propellant Components Determined by Solution Calorimetry
- M. M. NardaiM. Bohn
- 22 June 2017
Materials Science, Engineering
The energetic or adhesive interaction between binder matrix and solid fillers as well as plasticizers and fillers is a property determining mechanical properties as strain capacity and stress at…
Shielding effects in polymer–polymer reactions, 3. Z-RAFT star polymerization under various solvent conditions
- M. FröhlichM. M. NardaiN. FörsterPhilipp VanaG. Zifferer
- 15 October 2010
Chemistry, Materials Science
Cohesion properties in PBX and composite propellants - computational results and experimental aspects
- M. M. NardaiM. Bohn
- 2015
Engineering, Materials Science
Shielding effects in polymer–polymer reactions. V. Concentration dependence of contact formation between star-branched and linear chains☆
- M. M. NardaiG. Zifferer
- 19 July 2013
Chemistry, Materials Science
Cohesion properties in PBX and composite propellants - computational details
- M. M. NardaiM. Bohn
- 2015
Engineering, Materials Science
Simulation of dilute solutions of linear and star-branched polymers by dissipative particle dynamics.
- M. M. NardaiG. Zifferer
- 24 September 2009
Materials Science, Chemistry
A most promising off-lattice technique in order to simulate not only static but in addition dynamic behavior of linear and star-branched chains is the dissipative particle dynamics (DPD) method. In…