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SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ

Year 2018, , 703 - 715, 20.07.2018
https://doi.org/10.28948/ngumuh.444743

Abstract

Bu çalışmada,
vollastonit katkılı yüksek performanslı harçların (YPH) taze ve mekanik özellikleri
deneysel olarak incelenmiştir. İlk aşamada vollastonit mineralinin literatür
çalışmaları dışında belirlenen özel bir yöntemle sentetik olarak üretimi
yapılmış, ikinci aşamada ise sentetik vollastonit YPH üretiminde
kullanılmıştır. Vollastonit katkılı yüksek performanslı harçların (VYPH)
üretimi 0,33 sabit su/bağlayıcı (çimento+vollastonit) oranıyla, 132±10 mm sabit
bir yayılma çapıyla ve yüksek oranda su azaltıcı katkı (süper akışkanlaştırıcı)
kullanılarak gerçekleştirilmiştir. İlk olarak, kontrol harcı sabit su/bağlayıcı
oranı ile üretilmiş ve daha sonra sentetik vollastonit sırasıyla, %3, %6, %9 ve
%12 oranlarında her defasında çimentonun yerine ikame edilmiştir. Üretilen
harçların sarsma tablasında yayılma çapı ölçülmüştür. Sonrasında, harçlara
basınç ve eğilme testlerinin yanı sıra ultrasonik titreşim hızı testi 28. günde
uygulanmıştır. Deney sonuçlarına göre, vollastonit miktarının artmasıyla
yayılma çapı giderek azalmış ve mekanik özellikler %9’a kadar iyileşmiştir.

References

  • [1] BİNİCİ, H., DURGUN, M.Y., RIZAOĞLU, T., KOLUÇOLAK, M., ‘‘Investigation of Durability Properties of Concrete Pipes Incorporating Blast Furnace Slag and Ground Basaltic Pumice as Fine Aggregates’’, Sharif University Technology, 19 (3), 366-372, 2012.
  • [2] GESOĞLU, M., GÜNEYİSİ, E., ÖZTURAN, T., ÖZ, H.Ö., ASAAD, D.S., ‘‘Self-Consolidating Characteristics of Concrete Composites Including Rounded Fine and Coarse Fly Ash Lightweight Aggregates’’, Composites: Part B, 60, 757-763, 2014.
  • [3] HYEOK-JUNG, K., SANG-MIN, P., SUBBIAH, K., SEUNG-JUN, K., ‘‘Durability Performance Evaluation of Concrete Containing TDFA (Tire Derived Fuel Ash)’’, Construction and Building Materials, 133, 376-386, 2017.
  • [4] MCGINNIS, M.J., DAVIS, M., DE LA ROSA, A., WELDON, B.D., KURAMA, Y.C., ‘‘Strength and Stiffness of Concrete with Recycled Concrete Aggregates’’, Construction and Building Materials, 154, 258-269, 2017.
  • [5] ULUSU, H., ARUNTAS, H. Y., GENCEL, O., ‘‘Investigation on Characteristics of Blended Cements Containing Pumice’’, Construction and Building Materials, 118, 11-19, 2016.
  • [6] TAŞDEMIR, M.A., BAYRAMOV, F., YERLIKAYA, M., ‘‘Geleneksel ve Yüksek Performanslı Çelik Donatılı Betonlar’’, TMH – Türkiye Mühendislik Haberleri, 426, 2003.
  • [7] KALLA, P., RANA, A., CHAD, Y.B., MISRA, A., CSETENYI, L., ‘‘Durability Studies on Concrete Containing Wollastonite’’, Journal of Cleaner Production, 87, 726-734, 2015.
  • [8] RANSINCHUNG, G.D., KUMAR, B., ‘‘Investigations on Pastes and Mortars of Ordinary Portland cement admixed with Wollastonite and Microsilica’’, Journal of Materials in Civil Engineering, 22(4), 305-313, 2010.
  • [9] SABET, F.A., LIBRE, N.A., SHEKARCHI, M., ‘‘Mechanical and Durability Properties of Self Consolidating High Performance Concrete Incorporating Natural Zeolite, Silica Fume, and Fly Ash’’, Construction and Building Materials, 44, 175-184, 2013.
  • [10] HANER, S., ÇUHADAROĞLU, D., ‘‘Vollastonit: Bir Gözden Geçirme’’, Jeoloji Mühendisliği Dergisi, 37(1), 63-82, 2013.
  • [11] SOLIMAN, A.M., NEHDI, M.L., ‘‘Effect of Natural Wollastonite Microfibers on Early-Age Behavior of UHPC’’, Journal of Materials in Civil Engineering, 24 (7), 816-824, 2012.
  • [12] PAUL, F.K., Mineral descriptions-Wollastonite, Optical Mineralogy, 4th ed., Mc Graw Hill, New York, USA, 1977.
  • [13] DUMONT, M., Wollastonite, Canadian Minerals Yearbook, Kanada, 2004.
  • [14] KOGEL, J.E., TRIVEDI, N.C., BARKER, J.M., KRUKOWSKI, S.T., ‘‘Industrial Minerals & Rocks’’, 7th ed. Published by Society for Mining, Metallurgy and Exploration, Inc., Colorado, USA, 2006.
  • [15] SARIİZ, K., ‘‘Endüstriyel Hammadde Yatakları ve Madenciliği’’, Anadolu Üniversitesi Mühendislik-Mimarlık Fakültesi Yayınları, 1992.
  • [16] CIULLO, P.A., Industrial Minerals and Their Uses, Noyes Publications, New Jersey, USA, 1996.
  • [17] KALLA, P., MISRA, A., GUPTA, R.C., CSETENYI, L., GAHLOT, V., ARORA, A., ‘‘Mechanical and Durability Studies on Concrete Containing Wollastonite-Fly Ash Combination’’, Construction and Building Materials, 40, 1142-1150, 2013.
  • [18] LOW, N.M.P., BEAUDOIN, J.J., ‘‘The Effect of Wollastonite Micro-Fibre Aspect Ratio on Reinforcement of Portland Cement-Based Binders’’, Cement and Concrete Research, 23, 1467-1479, 1993.
  • [19] ZHU, L.Z., SOHN, H.Y., BRONSON, T.M., ‘‘Flux Growth of 2M-Wollastonite Crystals for the Preparation of High Aspect Ratio Particles’’, Ceramics International, 40, 5973-5982, 2014.
  • [20] RANSINCHUNG, G.D., KUMAR, B., KUMAR, V., ‘‘Assessment of Water Absorption and Chloride Ion Penetration of Pavement Quality Concrete Admixed with Wollastonite and Microsilica’’, Construction and Building Materials, 23, 1168-1177, 2009.
  • [21] http://minerals.usgs.gov/minerals/pubs/commodity/wollastonite/myb1-2010-wolla.pdf (erişim tarihi 12.03.2018).
  • [22] http://minerals.usgs.gov/minerals/pubs/commodity/wollastonite/myb1-2011-wolla.pdf (erişim tarihi 12.03.2018).
  • [23] KURŞUN, İ., İPEKOĞLU, B., ‘‘Türkiye Kuvars Kumu Potansiyeline Genel Bir Bakış’’, Endüstriyel Hammaddeler Sempozyumu, İzmir, Türkiye, 21-22 Nisan, 1995.
  • [24] AKKAYA, Y., KESLER, Y.E., ‘‘Mikro Kalsit Katkısının Betonun İşlenebilirliğine, Mekanik Özelliklerine ve Dayanıklılığına Etkisi’’, İMO Teknik Dergi 384, 6051-6061, 2012.
  • [25] ZHU, L., Preparation of High-Aspect-Ratio Particles Through The High Temperature Growth of 2M-Wollastonite Crystals, PhD Thesis, The University of Utah Graduate School, Utah, USA, 2013.
  • [26] LIN, K., CHANG, J., CHEN, G., RUAN, M., NING, C., ‘‘A Simple Method to Synthesize Single-Crystalline B-Wollastonite Nanowires’’, Journal of Crystal Growth, 300 (2), 267-271, 2007.
  • [27] MATHUR, R., MISRA, A.K., GOEL, P., ‘‘Influence of Wollastonite on Mechanical Properties of Concrete’’, Journal of Scientific & Industrial Research, 66, 1029-1034, 2007.
  • [28] RANSINCHUNG, G.D., KUMAR, B., KUMAR, V., ‘‘Assessment of Water Absorption and Chloride Ion Penetration of Pavement Quality Concrete Admixed with Wollastonite and Microsilica’’, Construction and Building Materials, 23, 1168-1177, 2009.
  • [29] ASTM C618, Standard Specification for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2015.
  • [30] TS EN 197-1, Genel çimentolar - Bileşim, özellikler ve uygunluk kriterleri, Türk Standartları Enstitüsü, Ankara, Türkiye, 2002.
  • [31] ASTM C305-12, Standard Practice for Mechanical Mixing of Hydraulic Cement Pastes and Mortars of Plastic Consistency, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [32] ASTM C1437-15, Standard Test Method for Flow of Hydraulic Cement Mortar, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [33] ASTM C349-14, Standard Test Method for Compressive Strength of Hydraulic-Cement Mortars (Using Portions of Prisms Broken in Flexure), American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [34] ASTM C348-14, Standard Test Method for Flexural Strength of Hydraulic-Cement Mortars, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [35] ASTM C597-16, Standard Test Method for Pulse Velocity Through Concrete, American Society for Testing and Materials, ASTM International, West Conshohocken, Pennsylvania, United States, 2016.
  • [36] GANESAN, K., RAJAGOPAL, K., THANGAVEL, K., ‘‘Rice Hush Ash Blended Cement: Assessment of Optimal Level of Replacement for Strength and Permeability Properties of Concrete’’, Construction and Building Materials, 22(8), 1675-1683, 2007.
  • [37] RAO, G.A., ‘‘Investigations on the Performance of Silica Fume-Incorporated Cement Pastes and Mortars’’, Cement and Concrete Research 33 (11), 1765-1770, 2003.
  • [38] TEMİZ, H., KOSE, M.M., KÖKSAL, S., ‘‘Effects of Portland Composite and Composite Cements on Durability of Mortar and Permeability of Concrete’’, Construction and Building Materials, 21 (6), 1170-1176, 2007.
  • [39] SOLIMAN, A.M., NEHDI, M.L., ‘‘Effects of Shrinkage Reducing Admixture and Wollastonite Microfiber on Early-Age Behaviour of Ultra-High Performance Concrete’’, Cement and Concrete Composites, 46, 81-89, 2014.
  • [40] TATNALL, P.C., ‘‘Fiber-reinforced concrete. In: Lamond, J.F. and Pielert, J.H., editors, ‘‘Significance of Tests and Properties of Concrete and Concrete-Making Materials (STP 169D)’’, ASTM International, West Conshohocken, 49, 578-594, 2006.
  • [41] KUMAR, J.B., RAMUJEE, K., ‘‘Mechanical & Durability Characteristics of Wollastonite Based Cement Concrete’’, Journal on Civil Engineering, 7(1), 1-7, 2017.
  • [42] WAHAB, M.A., LATIF, I.A., KOHAIL, M., ALMASRY, A., ‘‘The Use of Wollastonite to Enhance The Mechanical Properties of Mortar Mixes’’, Construction and Building Materials, 152, 304-309, 2017.
  • [43] BANTHIA, N., SHENG, J., ‘‘Fracture Toughness of Micro-Fiber Reinforced Cement Composites’’, Cement and Concrete Composites, 18(4), 251-269, 1996.
  • [44] HAMEED, R., TURATSINZE, A., DUPRAT, F., SELLIER, A., ‘‘Metallic Fiber Reinforced Concrete: Effect of Fiber Aspect Ratio on The Flexural Properties’’, ARPN Journal of Engineering and Applied Sciences, 4(5), 67-72, 2009.
  • [45] MATHUR, R., MISRA, A.K. AND GOEL, P., ‘‘Marble Slurry Dust and Wollastonite-Inert Mineral Admixtures for Cement Concrete’’, Indian Highways, 35(12), 41-46, 2007.
  • [46] DING, Y. AND KUSTERLE, W., ‘‘Compressive Stress-Strain Relationship of Steel Fiber-Reinforced Concrete at Early-Age, Cement and Concrete Research, 30(10), 1573-1579, 2000.
  • [47] HAMOUSH, S., ABU-LEBDEH, T., CUMMINS, T., ZORNIG, B., ‘‘Pullout Characterizations of Various Steel Fibers Embedded in Very High-Strength Concrete’’, American Journal of Engineering and Applied Sciences, 3(2), 418-426, 2010.
  • [48] MALHOTRA V.M., ‘‘Testing Hardened Concrete: Nondestructive Methods’’, American Concrete Institute Monograph No.9., USA, 1976.
Year 2018, , 703 - 715, 20.07.2018
https://doi.org/10.28948/ngumuh.444743

Abstract

References

  • [1] BİNİCİ, H., DURGUN, M.Y., RIZAOĞLU, T., KOLUÇOLAK, M., ‘‘Investigation of Durability Properties of Concrete Pipes Incorporating Blast Furnace Slag and Ground Basaltic Pumice as Fine Aggregates’’, Sharif University Technology, 19 (3), 366-372, 2012.
  • [2] GESOĞLU, M., GÜNEYİSİ, E., ÖZTURAN, T., ÖZ, H.Ö., ASAAD, D.S., ‘‘Self-Consolidating Characteristics of Concrete Composites Including Rounded Fine and Coarse Fly Ash Lightweight Aggregates’’, Composites: Part B, 60, 757-763, 2014.
  • [3] HYEOK-JUNG, K., SANG-MIN, P., SUBBIAH, K., SEUNG-JUN, K., ‘‘Durability Performance Evaluation of Concrete Containing TDFA (Tire Derived Fuel Ash)’’, Construction and Building Materials, 133, 376-386, 2017.
  • [4] MCGINNIS, M.J., DAVIS, M., DE LA ROSA, A., WELDON, B.D., KURAMA, Y.C., ‘‘Strength and Stiffness of Concrete with Recycled Concrete Aggregates’’, Construction and Building Materials, 154, 258-269, 2017.
  • [5] ULUSU, H., ARUNTAS, H. Y., GENCEL, O., ‘‘Investigation on Characteristics of Blended Cements Containing Pumice’’, Construction and Building Materials, 118, 11-19, 2016.
  • [6] TAŞDEMIR, M.A., BAYRAMOV, F., YERLIKAYA, M., ‘‘Geleneksel ve Yüksek Performanslı Çelik Donatılı Betonlar’’, TMH – Türkiye Mühendislik Haberleri, 426, 2003.
  • [7] KALLA, P., RANA, A., CHAD, Y.B., MISRA, A., CSETENYI, L., ‘‘Durability Studies on Concrete Containing Wollastonite’’, Journal of Cleaner Production, 87, 726-734, 2015.
  • [8] RANSINCHUNG, G.D., KUMAR, B., ‘‘Investigations on Pastes and Mortars of Ordinary Portland cement admixed with Wollastonite and Microsilica’’, Journal of Materials in Civil Engineering, 22(4), 305-313, 2010.
  • [9] SABET, F.A., LIBRE, N.A., SHEKARCHI, M., ‘‘Mechanical and Durability Properties of Self Consolidating High Performance Concrete Incorporating Natural Zeolite, Silica Fume, and Fly Ash’’, Construction and Building Materials, 44, 175-184, 2013.
  • [10] HANER, S., ÇUHADAROĞLU, D., ‘‘Vollastonit: Bir Gözden Geçirme’’, Jeoloji Mühendisliği Dergisi, 37(1), 63-82, 2013.
  • [11] SOLIMAN, A.M., NEHDI, M.L., ‘‘Effect of Natural Wollastonite Microfibers on Early-Age Behavior of UHPC’’, Journal of Materials in Civil Engineering, 24 (7), 816-824, 2012.
  • [12] PAUL, F.K., Mineral descriptions-Wollastonite, Optical Mineralogy, 4th ed., Mc Graw Hill, New York, USA, 1977.
  • [13] DUMONT, M., Wollastonite, Canadian Minerals Yearbook, Kanada, 2004.
  • [14] KOGEL, J.E., TRIVEDI, N.C., BARKER, J.M., KRUKOWSKI, S.T., ‘‘Industrial Minerals & Rocks’’, 7th ed. Published by Society for Mining, Metallurgy and Exploration, Inc., Colorado, USA, 2006.
  • [15] SARIİZ, K., ‘‘Endüstriyel Hammadde Yatakları ve Madenciliği’’, Anadolu Üniversitesi Mühendislik-Mimarlık Fakültesi Yayınları, 1992.
  • [16] CIULLO, P.A., Industrial Minerals and Their Uses, Noyes Publications, New Jersey, USA, 1996.
  • [17] KALLA, P., MISRA, A., GUPTA, R.C., CSETENYI, L., GAHLOT, V., ARORA, A., ‘‘Mechanical and Durability Studies on Concrete Containing Wollastonite-Fly Ash Combination’’, Construction and Building Materials, 40, 1142-1150, 2013.
  • [18] LOW, N.M.P., BEAUDOIN, J.J., ‘‘The Effect of Wollastonite Micro-Fibre Aspect Ratio on Reinforcement of Portland Cement-Based Binders’’, Cement and Concrete Research, 23, 1467-1479, 1993.
  • [19] ZHU, L.Z., SOHN, H.Y., BRONSON, T.M., ‘‘Flux Growth of 2M-Wollastonite Crystals for the Preparation of High Aspect Ratio Particles’’, Ceramics International, 40, 5973-5982, 2014.
  • [20] RANSINCHUNG, G.D., KUMAR, B., KUMAR, V., ‘‘Assessment of Water Absorption and Chloride Ion Penetration of Pavement Quality Concrete Admixed with Wollastonite and Microsilica’’, Construction and Building Materials, 23, 1168-1177, 2009.
  • [21] http://minerals.usgs.gov/minerals/pubs/commodity/wollastonite/myb1-2010-wolla.pdf (erişim tarihi 12.03.2018).
  • [22] http://minerals.usgs.gov/minerals/pubs/commodity/wollastonite/myb1-2011-wolla.pdf (erişim tarihi 12.03.2018).
  • [23] KURŞUN, İ., İPEKOĞLU, B., ‘‘Türkiye Kuvars Kumu Potansiyeline Genel Bir Bakış’’, Endüstriyel Hammaddeler Sempozyumu, İzmir, Türkiye, 21-22 Nisan, 1995.
  • [24] AKKAYA, Y., KESLER, Y.E., ‘‘Mikro Kalsit Katkısının Betonun İşlenebilirliğine, Mekanik Özelliklerine ve Dayanıklılığına Etkisi’’, İMO Teknik Dergi 384, 6051-6061, 2012.
  • [25] ZHU, L., Preparation of High-Aspect-Ratio Particles Through The High Temperature Growth of 2M-Wollastonite Crystals, PhD Thesis, The University of Utah Graduate School, Utah, USA, 2013.
  • [26] LIN, K., CHANG, J., CHEN, G., RUAN, M., NING, C., ‘‘A Simple Method to Synthesize Single-Crystalline B-Wollastonite Nanowires’’, Journal of Crystal Growth, 300 (2), 267-271, 2007.
  • [27] MATHUR, R., MISRA, A.K., GOEL, P., ‘‘Influence of Wollastonite on Mechanical Properties of Concrete’’, Journal of Scientific & Industrial Research, 66, 1029-1034, 2007.
  • [28] RANSINCHUNG, G.D., KUMAR, B., KUMAR, V., ‘‘Assessment of Water Absorption and Chloride Ion Penetration of Pavement Quality Concrete Admixed with Wollastonite and Microsilica’’, Construction and Building Materials, 23, 1168-1177, 2009.
  • [29] ASTM C618, Standard Specification for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2015.
  • [30] TS EN 197-1, Genel çimentolar - Bileşim, özellikler ve uygunluk kriterleri, Türk Standartları Enstitüsü, Ankara, Türkiye, 2002.
  • [31] ASTM C305-12, Standard Practice for Mechanical Mixing of Hydraulic Cement Pastes and Mortars of Plastic Consistency, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [32] ASTM C1437-15, Standard Test Method for Flow of Hydraulic Cement Mortar, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [33] ASTM C349-14, Standard Test Method for Compressive Strength of Hydraulic-Cement Mortars (Using Portions of Prisms Broken in Flexure), American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [34] ASTM C348-14, Standard Test Method for Flexural Strength of Hydraulic-Cement Mortars, American Society for Testing and Materials, ASTM International, West Conshohocken, United States, 2017.
  • [35] ASTM C597-16, Standard Test Method for Pulse Velocity Through Concrete, American Society for Testing and Materials, ASTM International, West Conshohocken, Pennsylvania, United States, 2016.
  • [36] GANESAN, K., RAJAGOPAL, K., THANGAVEL, K., ‘‘Rice Hush Ash Blended Cement: Assessment of Optimal Level of Replacement for Strength and Permeability Properties of Concrete’’, Construction and Building Materials, 22(8), 1675-1683, 2007.
  • [37] RAO, G.A., ‘‘Investigations on the Performance of Silica Fume-Incorporated Cement Pastes and Mortars’’, Cement and Concrete Research 33 (11), 1765-1770, 2003.
  • [38] TEMİZ, H., KOSE, M.M., KÖKSAL, S., ‘‘Effects of Portland Composite and Composite Cements on Durability of Mortar and Permeability of Concrete’’, Construction and Building Materials, 21 (6), 1170-1176, 2007.
  • [39] SOLIMAN, A.M., NEHDI, M.L., ‘‘Effects of Shrinkage Reducing Admixture and Wollastonite Microfiber on Early-Age Behaviour of Ultra-High Performance Concrete’’, Cement and Concrete Composites, 46, 81-89, 2014.
  • [40] TATNALL, P.C., ‘‘Fiber-reinforced concrete. In: Lamond, J.F. and Pielert, J.H., editors, ‘‘Significance of Tests and Properties of Concrete and Concrete-Making Materials (STP 169D)’’, ASTM International, West Conshohocken, 49, 578-594, 2006.
  • [41] KUMAR, J.B., RAMUJEE, K., ‘‘Mechanical & Durability Characteristics of Wollastonite Based Cement Concrete’’, Journal on Civil Engineering, 7(1), 1-7, 2017.
  • [42] WAHAB, M.A., LATIF, I.A., KOHAIL, M., ALMASRY, A., ‘‘The Use of Wollastonite to Enhance The Mechanical Properties of Mortar Mixes’’, Construction and Building Materials, 152, 304-309, 2017.
  • [43] BANTHIA, N., SHENG, J., ‘‘Fracture Toughness of Micro-Fiber Reinforced Cement Composites’’, Cement and Concrete Composites, 18(4), 251-269, 1996.
  • [44] HAMEED, R., TURATSINZE, A., DUPRAT, F., SELLIER, A., ‘‘Metallic Fiber Reinforced Concrete: Effect of Fiber Aspect Ratio on The Flexural Properties’’, ARPN Journal of Engineering and Applied Sciences, 4(5), 67-72, 2009.
  • [45] MATHUR, R., MISRA, A.K. AND GOEL, P., ‘‘Marble Slurry Dust and Wollastonite-Inert Mineral Admixtures for Cement Concrete’’, Indian Highways, 35(12), 41-46, 2007.
  • [46] DING, Y. AND KUSTERLE, W., ‘‘Compressive Stress-Strain Relationship of Steel Fiber-Reinforced Concrete at Early-Age, Cement and Concrete Research, 30(10), 1573-1579, 2000.
  • [47] HAMOUSH, S., ABU-LEBDEH, T., CUMMINS, T., ZORNIG, B., ‘‘Pullout Characterizations of Various Steel Fibers Embedded in Very High-Strength Concrete’’, American Journal of Engineering and Applied Sciences, 3(2), 418-426, 2010.
  • [48] MALHOTRA V.M., ‘‘Testing Hardened Concrete: Nondestructive Methods’’, American Concrete Institute Monograph No.9., USA, 1976.
There are 48 citations in total.

Details

Primary Language Turkish
Subjects Civil Engineering
Journal Section Civil Engineering
Authors

Hatice Öznur Öz 0000-0003-3568-1689

Muhammet Güneş This is me 0000-0001-6788-788X

Publication Date July 20, 2018
Submission Date February 8, 2018
Acceptance Date February 19, 2018
Published in Issue Year 2018

Cite

APA Öz, H. Ö., & Güneş, M. (2018). SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 7(2), 703-715. https://doi.org/10.28948/ngumuh.444743
AMA Öz HÖ, Güneş M. SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ. NÖHÜ Müh. Bilim. Derg. July 2018;7(2):703-715. doi:10.28948/ngumuh.444743
Chicago Öz, Hatice Öznur, and Muhammet Güneş. “SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 7, no. 2 (July 2018): 703-15. https://doi.org/10.28948/ngumuh.444743.
EndNote Öz HÖ, Güneş M (July 1, 2018) SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 7 2 703–715.
IEEE H. Ö. Öz and M. Güneş, “SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ”, NÖHÜ Müh. Bilim. Derg., vol. 7, no. 2, pp. 703–715, 2018, doi: 10.28948/ngumuh.444743.
ISNAD Öz, Hatice Öznur - Güneş, Muhammet. “SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 7/2 (July 2018), 703-715. https://doi.org/10.28948/ngumuh.444743.
JAMA Öz HÖ, Güneş M. SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ. NÖHÜ Müh. Bilim. Derg. 2018;7:703–715.
MLA Öz, Hatice Öznur and Muhammet Güneş. “SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, vol. 7, no. 2, 2018, pp. 703-15, doi:10.28948/ngumuh.444743.
Vancouver Öz HÖ, Güneş M. SENTETİK VOLLASTONİT İÇEREN YÜKSEK PERFORMANSLI HARÇLARIN DAYANIM ÖZELLİKLERİ. NÖHÜ Müh. Bilim. Derg. 2018;7(2):703-15.

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