Anke Golla

ORCID: 0000-0002-1805-9874
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About
Contact & Profiles
Research Areas
  • Textile materials and evaluations
  • Masonry and Concrete Structural Analysis
  • Innovative concrete reinforcement materials
  • Advanced Sensor and Energy Harvesting Materials
  • Innovative Energy Harvesting Technologies
  • Additive Manufacturing and 3D Printing Technologies
  • Natural Fiber Reinforced Composites
  • Advanced Thermoelectric Materials and Devices
  • Mechanical Behavior of Composites
  • Vibration and Dynamic Analysis
  • Structural Analysis and Optimization
  • Innovations in Concrete and Construction Materials

Technische Universität Dresden
2022-2024

In the textile sector, sustainable development and production of high-performance high-quality textiles has become increasingly important. To enable processing new yarn materials at high speeds, in-depth understanding relationships between machine elements, path, tension is required. Therefore, aim this paper to analyze interactions warp knitting unit path during stitch formation process by means theoretical modeling experimental investigation. A vector-based model been developed describe...

10.1177/00405175231166150 article EN cc-by Textile Research Journal 2023-04-03

Concrete is extremely vulnerable against impact loading due to its low tensile strength and pronounced brittleness. The application of thin strengthening layers, containing Textile Reinforced (TRC) Strain-Hardening Cement-based Composites (SHCCs) in a ductile cement-based composite, promising solution enhance the resistance existing concrete structures. Three-dimensional (3D) textile structures exhibit numerous advantages over two-dimensional (2D) ones, most importantly higher shear, bending...

10.4028/p-46f419 article EN Materials science forum 2022-06-10

Abstract Thermoelectric generators (TEG) offer the potential to convert waste heat into electricity and thus contribute reduce CO 2 emissions. The conversion of electrical energy is based on Seebeck effect two electrically conductive materials without any mechanical therefore wear. application conventional TEG modules limited due cost-intensive production technology TEG, a structure design for integration Elements (TE). To address this research challenge, work presents development...

10.1088/2053-1591/ad2798 article EN cc-by Materials Research Express 2024-02-08
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