Physico-Mechanical Properties of Plaster of Paris (Gypsum Plaster) Reinforced with Paper Pulp



Abstract Views
2087

Downloads
3440

Citations

Share

##plugins.themes.bootstrap3.article.sidebar##

Submitted Dec 23, 2020
Published Jan 26, 2021
10.24018/ejeng.2021.6.1.2315

Abstract viewed = 2087 times

Table of Contents

##plugins.themes.bootstrap3.article.main##

The study was carried out on the physico-mechanical properties of plaster of Paris (Gypsum plaster) reinforced with paper pulp in order to improve the weight of plaster paste and to obtain materials of lighter weight that solve problems such as poor flexural strength, and crack propagation. To do this experiment, the considerable basis of a standard of 2 kg of plaster of Paris was taken as the test sample. Gradually plaster of Paris was substituted with paper pulp paste in a water basin in proportions K0, K1, K2, K3, K4, K5 and K6 representing the different percentages of 0%, 10%, 20%, 40%, 60%, 80%, 100% of mixture respectively. After the above observations, the following parameters on fresh and hardened samples were tested: the start time of reaction, and end time of hardening, consistency, the flexural and compressive strength, shrinkage, and apparent density. At the end of these tests, it was determined that, the incorporation of small amounts of paper pulp (2 kg samples) into the plaster paste improves its flexural properties. But from k0 to k6, properties related to bending and compression began to gradually fall which is a consequence of the augmentation of the amount of paper paste in the plaster paste. The presence of paper pulp in the plaster of Paris paste increases the time of hardening of the plaster cement from one proportion to another, reduces the workability of the mixed paste, significantly solves the problem of removal, the apparent density drops when waste paper paste is increased in the mixed plaster.

Because of its light weight, low density, its acceptable Mechanical properties, these new materials are recommended for exploitation in the manufacturing of popular lightweight construction finishing like panels for ceiling or walls, staff works and other applications.

Keywords: Physical properties, Mechanical properties, Plaster of Paris, Waste paper, Fibre (cellulose fibres

Downloads

Download data is not yet available.

References

  1. Guth, W., and Tety, R. (1992). Ultimatum bargaining Behaviour. A survey and comparison of experimental results’J. Econ Psych 11,417-449
     Google Scholar
  2. Eckel, (1996). Chivalry and Solidarity in Ultimatum Game,’Virgina Polytectnic Institute and State Univerity
     Google Scholar
  3. Lafarge P. R. (27 November 2008) Staff CaSO4, ½ H2O.
     Google Scholar
  4. Bledeki, (1999). Rapid design and fielding of four diagnostic technologies
     Google Scholar
  5. Mullick, (1999). Measuring Universl Design:
     Google Scholar
  6. Chapman and Hall (1993). Journal of Material Science 28, United States Gypsum Company (2000), Plaster Mixing Procedures.
     Google Scholar
  7. Google. (s.d.). Reaction of Plaster of Paris.
     Google Scholar
  8. Lafarge, (2000). Lafarge net earnings in 1999: +32% I Lafarge Holcm.cm
     Google Scholar
  9. Heidrich O, Bird RN, Huang Y. (2007), The Application of Recycled Waste Materials in the Construction of Asphalt Pavements.
     Google Scholar
  10. Christopher Pardell (2000), Working with Plasters. United States Gypsum Company (2012) Sheetrock® Plaster of Paris.
     Google Scholar
  11. Thesis of doctorate Insa of Lyon France (1988). The Study of the Construction of fibre dispersed anisotropic in the cement mortar on the laws of behaviour, the criteria of resistance and Cracking of Materials.
     Google Scholar
  12. CJ Liebenberg (2007), Waste recycling in developing countries in africa: barriers to improving reclamation rates.
     Google Scholar
  13. Jimenez A. R. et al. (2014) Construction and Building Materials.
     Google Scholar
  14. Danh D. B, rice husk ash as a mineral admixture for high performance concrete.
     Google Scholar
  15. Arikana M., K. Sobolevb, received (15 May 2001) accepted 6 May 2002 The optimization of a gypsum-based composite material *Civil Engineering Department, Middle East Technical University, Ankara, Turkey Civil Engineering Department, European University of Lefke, Gemikonagi Lefke via Mersin 10, KKTC, Turkey.
     Google Scholar
  16. Panaitescu D, Mihaela and Al. (2007). L’effet de l’interface dans les composites de fibres naturelles et de matières plastiques. Revue Roumaine de Chimie, pages
     Google Scholar
  17. Singh M. C. M. (1992) Glass fibre reinforced water-resistant gypsum-based composite. Cement Composites
     Google Scholar
  18. Hernandez-Olivares F, Oteiza I., and de Villanueva L. (1992). Experimental analysis of toughness and modulus of rupture increase of sisal short fiber reinforced hemi-hydrated gypsum. Composite Structures
     Google Scholar
  19. Sophie E. (2003) Comportement à la prise et caractérisation mécanique de matériaux composites à base de plâtre. PhD thesis, Université de Caen, Encarta. (2009). Paper. Files.
     Google Scholar
  20. Google. (s.d.).Récupérésurhttp://www.notreplanete.info/actualities/actu_910_paper_recycle.php.
     Google Scholar
  21. Kriker. (2005). Characteristics of fibre of death palm and their properties.
     Google Scholar
  22. Pardell, C. (2000). Working with Plasters.
     Google Scholar
  23. WBDG National Institute OF Building Sciences (2000). Plaster and Gypsum Boards.
     Google Scholar
  24. United State Gypsum Company. (2000) Plaster mixing procedures.
     Google Scholar
  25. United State Gypsum Company (2012). Sheetrock Plaster of Paris.
     Google Scholar
  26. Wikipedia. (2014, March 20). Récupéré sur How to eliminate inks at the time from the reprocessing of paper: Brittany durable mountain development.
     Google Scholar
  27. Wikipedia. (2014, February 15). Récupéré sur paper-carton/waste/collect, storage, regional treatment and elimination of waste/ observatory of the industrial waste in the mdday-pyrenees.
     Google Scholar
  28. Wikipedia. (2014, February 15). Récupéré sur Recycled paper, a good idea recuo.
     Google Scholar
  29. www.alibaba.com. (2014, June 13). Récupéré sur External cement ceiling panel.
     Google Scholar