Uysal, M., Haviarova, E., & Eckelman, C. (2014). Furniture Design and Product Development Principles Considering End-of-Life Options and Design for Environment Strategies. Sustainable Resources and Technology for Forest Products, 8.
Haviarova, E., Eckelman, C., & Warner, D. (2014). How to Build a Simple Chair for Schools or Homes in Disadvantaged Areas of the World Using Local Resources and Low-End Technology. , (FNR-499-W), 6. Retrieved from https://mdc.itap.purdue.edu/item.asp?Item_Number=FNR-499-W
Haviarova, E., & Quesada, H. (2014). Incorporating Experiential Learning and Education for Sustainable Development into Study Abroad Programs. Sustainable Resources and Technology for Forest Products, 8.
Quesada, H., & Haviarova, E. (2014). Learning Sustainability through Study Abroad Programs. Natural Science Education, Vol. 43, :1-10.
Haviarova, E., & Eckelman, C. (2014). Light-Timber Frames for Transitional Disaster-Relief Housing. , (FNR-493-W), 6. Retrieved from https://mdc.itap.purdue.edu/item.asp?Item_Number=FNR-493-W
Haviarova, E., Bois, J., & Quesada, H. (2013). Development of Optimal Forest Products Supported by LCA. International Scientific Conference of Hardwood Processing, Florence Italy, 6.
Kasal, A., Haviarova, E., Efe, H., Eckelman, C., & Erdil, Y. (2013). Effect of adhesive type and tenon size on bending moment capacity and rigidity of t-shaped furniture joints constructed of Turkish beech and scots pine.. Wood and Fiber Science, 45(3), 287-293.
Koreny, A., Simek, M., Eckelman, C., & Haviarova, E. (2013). Mechanical Properties of Knock-down Joints in Honeycomb Panels. BioResources, 8(4), 4873-4882. Retrieved from http://ojs.cnr.ncsu.edu/index.php/BioRes/index
Likos, E., Eckelman, C., Haviarova, E., Erdil, Y., & Ozcifci, A. (2013). Static versus Cyclic Load Capacity of Side Chairs Constructed with. Mortise and Tenon Joints.. Wood and Fiber Science, 45(2), 6-Jan. Retrieved from http://www.swst.org/publications/wfs/prepublications.html
Licos, E., Haviarova, E., Eckelman, C., Erdil, Y., & Ozcifci, A. (2012). Effect of Tenon Geometry, Grain Orientation, and Shoulders on Bending Moment Capacity of Mortise and Tenon Joints. Wood and Fiber Science, 43(4), 462-469.