An Experimental Study on the Total and Capillary Water Absorption of Mortar Containing Phragmites Australis Ash
Yıl 2023,
Cilt: 2 Sayı: 1, 67 - 72, 21.05.2023
Lelian Elkhatib
,
Jamal Khatib
,
Adel Elkordi
,
Seyhan Fırat
Öz
The use of biomass ashes as cement replacement have become a notable and trending aspect due to the huge increase in the pollution levels caused by the manufacturing process of cement. Phragmites Australis Ashes (PAA) can be an eco-friendly alternative to cement since it can be burnt in a closed container decreasing the CO2 emissions into atmosphere. Also, PAA is considered an economical material since it is available locally and grows massively on the banks of the rivers in Lebanon. The performance of mortar mixes produced by a partial replacement of cement were evaluated in this paper revealing a big potential for PAA to be used as cement replacement. Cement in mortar specimens was replaced by 0, 10, 20 and 30% by weight PAA. Mix proportions and water to binder ratio were set constant for all casted mixes. Durability properties, including total water absorption and capillary water absorption, containing different PAA percentages were evaluated at 1, 7, 28 and 90 days of curing ages in comparison to the control specimen. The test results show an increase in the total water absorption percentages as PAA percentage is enhanced in mixes. The same trend was also obtained for capillary water absorption test.
Kaynakça
- A. Abitha, C.A. Jesty, S. Siyad, P.C. Vijay, S.
Sreerekha Raj, B.S. Dhanya, “Feasibility
assessment of rice straw ash as a supplementary
cementitious material,” Mater Today-Proc., Jan,
2023.
- A. Aneja, R.L. Sharma, H. Singh, “Mechanical
and durability properties of biochar concrete,”
Mater Today-Proc., vol. 65, part 8, pp 3724–
3730, 2022.
- M.A. Kareem, B.B. Akintonde, J.S. Adesoye, K.
Ishola, I.A. Tijani, A.U. Adebanjo, M.O. Thanni,
W.O. Oduoye, D.O. Adeyanju, A.A. Bello,
“Influence of cashew leaf ash as partial
replacement for cement on the properties of
fresh and hardened concrete,” Cleaner Waste
Systems, vol. 4, no. 100063, Apr, 2023.
- K. Nandhini, J. Karthikeyan, “Sustainable and
greener concrete production by utilizing waste
eggshell powder as cementitious material – A
review,” Const Build Mater, vol. 335, no.
127482, Jun, 2022.
- D. Ali, R. Agarwal, M. Hanifa, P. Rawat, R.
Paswan, D. Rai, I. Tyagi, B. S. Naik, A. Pippal,
“Thermo-physical properties and
microstructural behaviour of biocharincorporated cementitious material,” J Build
Eng, vol. 64, no. 105695, Apr, 2023.
- H.Y.B. Katman, W.J. Khai, N. Bheel, M.S. Kırgız,
A. Kumar, J. Khatib, O. Benjeddou,
“Workability, strength, modulus of elasticity,
and permeability feature of wheat straw ashincorporated hydraulic cement concrete,”
Buildings, vol. 12, no. 9, Sept, 2022.
- N. Sathiparan, A. Anburuvel, V. V. Selvam,
“Utilization of agro-waste groundnut shell and
its derivatives in sustainable construction and
building materials – A review,” J Build Eng, vol.
66, no. 105866, May, 2023.
- M. Shakouri, C. L. Exstrom, S. Ramanathan, P.
Suraneni, J. S. Vaux, “Pretreatment of corn
stover ash to improve its effectiveness as a
supplementary cementitious material in
concrete,” Cement Concrete Comp, vol. 12, no.
103658, Sept, 2020.
- M. Pekgöz, İ. Tekin, “The effects of different
origins NaOH on the mechanical and
microstructural properties of tuff-based alkaliactivated pastes,” Turk J Eng Res Educ, vol. 1,
no. 1, pp. 29-37, 2022.
- M. H. Javed, M. A. Sikandar, W. Ahmad, M. T.
Bashir, R. Alrowais, M. B. Wadud, “Effect of
various biochars on physical, mechanical, and
microstructural characteristics of cement pastes
and mortars,” J Build Eng, vol. 57, no. 104850,
Oct, 2022.
- H. Affan, W. Arairo, J. Arayro, “Mechanical and
thermal characterization of bio-sourced mortars
made from agricultural and industrial byproducts,” Case Stud Const Mater, vol. 18, no.
e01939, Jun, 2023.
- S.S. Dash, S. P. Mishra, S. Panda,
“Physiognomies and strength investigation of
concrete part blended by wood ash,” Int. J.
Environ. Clim. Change, vol. 11, no. 5, pp. 143-
155, Jul, 2021.
- M. Sonebi, A. Abdalqader, T. Fayyad, S.
Amaziane, J El-Khatib, “Effect of fly ash and
metakaolin on the properties of fiber-reinforced
cementitious composites: A factorial design
approach,” Comput Concrete, vol. 29, no. 5,
pp347-360, May, 2022.
- H. Ghanem J. Khatib A. Elkordi, “Effect of
partial replacement of sand by mswi-ba on the
properties of mortar,” BAU J Sci Tech, vol. 1, no.
2, 2020.
- M. Machaka, J. Khatib, A. Elkordi, H. Ghanem,
O. Baalbaki, “Selected properties of concrete
containing municipal solid waste incineration
bottom ash (MSWI-BA),” 5th Int Conf Sust
Const Mater Tech (SCMT5), London, UK, 2019,
pp. 14-17.
- N. N. A. Rasid, N. H. A Khalid, A. Mohamed,
A. R. M. Sam, Z. A. Majid, G. F. Huseien,
“Ground palm oil fuel ash and calcined
eggshell powder as SiO2–CaO based accelerator
in green concrete,” J Build Eng, vol. 15, no.
105617, Apr, 2023.
- H. Ghanem, M. Machaka, J. Khatib, A. Elkordi,
O. Baalbaki, “Effect of partial replacement of
cement by MSWIBA on the properties of
mortar,” Acad J Civ Eng, vol. 37, no. 2, pp. 82-
89, Jun, 2019.
- K. Nandhini, J. Karthikeyan, “Effective
utilization of waste eggshell powder in cement
mortar, Mater Today-Proc, vol. 61, no. 2, pp. 428
– 432, Jan, 2022.
- F. Wu, Q. Yu, H. J. Brouwers, “Long-term
performance of bio-based miscanthus mortar,”
Const Build Mater, vol.21, no. 126703, Mar,
2022.
- M. Machaka, J. Khatib, S. Baydoun, A. Elkordi,
J. J. Assaad, “The effect of adding phragmites
australis fibers on the properties of concrete,”
Buildings., vol. 12(3), no. 278, Mar, 2022.
- M. Machaka, A. Elkordi, H. Ghanem, J. Khatib,
O. Baalbaki, “Selected properties of concrete containing palm fibers,” Acad J Civ Eng, vol. 37,
no. 2, pp. 279-286, Jun, 2019.
- B. S. Thomas, J. Yang, K. H. Mo, J. A. Abdalla,
R. A. Hawileh, E. Ariyachandra, “Biomass
ashes from agricultural wastes as
supplementary cementitious materials or
aggregate replacement in cement/geopolymer
concrete: A comprehensive review,” J Build
Eng, vol. 40, no. 102332, Aug, 2021.
- J. He, S. Kawasaki, V. Achal, “The utilization of
agricultural waste as agro-cement in concrete:
A review,” Sustainability, vol. 12, no. 6971,
Aug, 2020.
- L. ElKhatib, F. A. Aridi, A. ElKordi, J. Khatib,
“Mechanical and durability properties of
geopolymer concrete– A Review, “ BAU J Sci
Tech, vol. 3, no. 8, 2022.
- L. ElKhatib, F. A. Aridi, A. ElKordi, Adel,
Khatib, Jamal M., “Selected properties on
geopolymer concrete – A review,” III
International Turkish World Engineering and
Science Congress, 2021, pp. 337-345.
- V.T. de Sande, M. Sadique, A. Bras, P. Pineda,
“Activated sugarcane bagasse ash as efficient
admixture in cement-based mortars:
Mechanical and durability improvements,” J
Build Eng, vol. 59, no. 105082. Nov, 2022.
- B. Patnaik, J. Chimdi, T. S. Sekhar, “Bermuda
grass ash as a sustainable cementing material in
concrete for ethiopian construction industry,”
Mater Today-Proc, vol. 1, no. 62, pp. 7261-7264,
Jan, 2022.
Phragmites Australis Külü İçeren Harcın Toplam ve Kılcal Su Emmesi Üzerine Deneysel Bir Çalışma
Yıl 2023,
Cilt: 2 Sayı: 1, 67 - 72, 21.05.2023
Lelian Elkhatib
,
Jamal Khatib
,
Adel Elkordi
,
Seyhan Fırat
Öz
Biyokütle küllerinin çimento yerine kullanılması, çimento üretim sürecinin neden olduğu kirlilik seviyelerindeki büyük artış nedeniyle dikkate değer ve son yıllarda araştırmacılar tarafından önem verilen konular arasına girmiştir. Phragmites Australis Ashes (PAA), kapalı bir kapta yakılarak atmosfere salınan CO2 emisyonunu azalttığı için çimentoya çevre dostu bir alternatif olabilir. Ayrıca PAA, yerel olarak bulunduğundan ve Lübnan'daki nehirlerin kıyılarında yoğun bir şekilde büyüdüğünden ekonomik bir malzeme olarak kabul edilir. Kısmi çimento ikamesi ile üretilen harç karışımlarının performansı, PAA'nın çimento ikamesi olarak kullanılması için büyük bir potansiyel ortaya koyan bu yazıda değerlendirilmiştir. Harç numunelerindeki çimento, ağırlıkça %0, 10, 20 ve %30 PAA ile değiştirilmiştir. Karışım oranları ve su/çimento oranı tüm dökülen karışımlar için sabit tutulmuştur. Farklı PAA yüzdeleri içeren toplam su emme ve kılcal su emme dahil olmak üzere dayanıklılık özellikleri, kontrol numunesine kıyasla 1, 7, 28 ve 90 günlük kürleme yaşlarında değerlendirilmiştir. Test sonuçları, karışımlarda PAA yüzdesi arttıkça toplam su emme yüzdelerinde bir artış olduğunu göstermektedir. Aynı eğilim kılcal su emme testi için de elde edilmiştir.
Kaynakça
- A. Abitha, C.A. Jesty, S. Siyad, P.C. Vijay, S.
Sreerekha Raj, B.S. Dhanya, “Feasibility
assessment of rice straw ash as a supplementary
cementitious material,” Mater Today-Proc., Jan,
2023.
- A. Aneja, R.L. Sharma, H. Singh, “Mechanical
and durability properties of biochar concrete,”
Mater Today-Proc., vol. 65, part 8, pp 3724–
3730, 2022.
- M.A. Kareem, B.B. Akintonde, J.S. Adesoye, K.
Ishola, I.A. Tijani, A.U. Adebanjo, M.O. Thanni,
W.O. Oduoye, D.O. Adeyanju, A.A. Bello,
“Influence of cashew leaf ash as partial
replacement for cement on the properties of
fresh and hardened concrete,” Cleaner Waste
Systems, vol. 4, no. 100063, Apr, 2023.
- K. Nandhini, J. Karthikeyan, “Sustainable and
greener concrete production by utilizing waste
eggshell powder as cementitious material – A
review,” Const Build Mater, vol. 335, no.
127482, Jun, 2022.
- D. Ali, R. Agarwal, M. Hanifa, P. Rawat, R.
Paswan, D. Rai, I. Tyagi, B. S. Naik, A. Pippal,
“Thermo-physical properties and
microstructural behaviour of biocharincorporated cementitious material,” J Build
Eng, vol. 64, no. 105695, Apr, 2023.
- H.Y.B. Katman, W.J. Khai, N. Bheel, M.S. Kırgız,
A. Kumar, J. Khatib, O. Benjeddou,
“Workability, strength, modulus of elasticity,
and permeability feature of wheat straw ashincorporated hydraulic cement concrete,”
Buildings, vol. 12, no. 9, Sept, 2022.
- N. Sathiparan, A. Anburuvel, V. V. Selvam,
“Utilization of agro-waste groundnut shell and
its derivatives in sustainable construction and
building materials – A review,” J Build Eng, vol.
66, no. 105866, May, 2023.
- M. Shakouri, C. L. Exstrom, S. Ramanathan, P.
Suraneni, J. S. Vaux, “Pretreatment of corn
stover ash to improve its effectiveness as a
supplementary cementitious material in
concrete,” Cement Concrete Comp, vol. 12, no.
103658, Sept, 2020.
- M. Pekgöz, İ. Tekin, “The effects of different
origins NaOH on the mechanical and
microstructural properties of tuff-based alkaliactivated pastes,” Turk J Eng Res Educ, vol. 1,
no. 1, pp. 29-37, 2022.
- M. H. Javed, M. A. Sikandar, W. Ahmad, M. T.
Bashir, R. Alrowais, M. B. Wadud, “Effect of
various biochars on physical, mechanical, and
microstructural characteristics of cement pastes
and mortars,” J Build Eng, vol. 57, no. 104850,
Oct, 2022.
- H. Affan, W. Arairo, J. Arayro, “Mechanical and
thermal characterization of bio-sourced mortars
made from agricultural and industrial byproducts,” Case Stud Const Mater, vol. 18, no.
e01939, Jun, 2023.
- S.S. Dash, S. P. Mishra, S. Panda,
“Physiognomies and strength investigation of
concrete part blended by wood ash,” Int. J.
Environ. Clim. Change, vol. 11, no. 5, pp. 143-
155, Jul, 2021.
- M. Sonebi, A. Abdalqader, T. Fayyad, S.
Amaziane, J El-Khatib, “Effect of fly ash and
metakaolin on the properties of fiber-reinforced
cementitious composites: A factorial design
approach,” Comput Concrete, vol. 29, no. 5,
pp347-360, May, 2022.
- H. Ghanem J. Khatib A. Elkordi, “Effect of
partial replacement of sand by mswi-ba on the
properties of mortar,” BAU J Sci Tech, vol. 1, no.
2, 2020.
- M. Machaka, J. Khatib, A. Elkordi, H. Ghanem,
O. Baalbaki, “Selected properties of concrete
containing municipal solid waste incineration
bottom ash (MSWI-BA),” 5th Int Conf Sust
Const Mater Tech (SCMT5), London, UK, 2019,
pp. 14-17.
- N. N. A. Rasid, N. H. A Khalid, A. Mohamed,
A. R. M. Sam, Z. A. Majid, G. F. Huseien,
“Ground palm oil fuel ash and calcined
eggshell powder as SiO2–CaO based accelerator
in green concrete,” J Build Eng, vol. 15, no.
105617, Apr, 2023.
- H. Ghanem, M. Machaka, J. Khatib, A. Elkordi,
O. Baalbaki, “Effect of partial replacement of
cement by MSWIBA on the properties of
mortar,” Acad J Civ Eng, vol. 37, no. 2, pp. 82-
89, Jun, 2019.
- K. Nandhini, J. Karthikeyan, “Effective
utilization of waste eggshell powder in cement
mortar, Mater Today-Proc, vol. 61, no. 2, pp. 428
– 432, Jan, 2022.
- F. Wu, Q. Yu, H. J. Brouwers, “Long-term
performance of bio-based miscanthus mortar,”
Const Build Mater, vol.21, no. 126703, Mar,
2022.
- M. Machaka, J. Khatib, S. Baydoun, A. Elkordi,
J. J. Assaad, “The effect of adding phragmites
australis fibers on the properties of concrete,”
Buildings., vol. 12(3), no. 278, Mar, 2022.
- M. Machaka, A. Elkordi, H. Ghanem, J. Khatib,
O. Baalbaki, “Selected properties of concrete containing palm fibers,” Acad J Civ Eng, vol. 37,
no. 2, pp. 279-286, Jun, 2019.
- B. S. Thomas, J. Yang, K. H. Mo, J. A. Abdalla,
R. A. Hawileh, E. Ariyachandra, “Biomass
ashes from agricultural wastes as
supplementary cementitious materials or
aggregate replacement in cement/geopolymer
concrete: A comprehensive review,” J Build
Eng, vol. 40, no. 102332, Aug, 2021.
- J. He, S. Kawasaki, V. Achal, “The utilization of
agricultural waste as agro-cement in concrete:
A review,” Sustainability, vol. 12, no. 6971,
Aug, 2020.
- L. ElKhatib, F. A. Aridi, A. ElKordi, J. Khatib,
“Mechanical and durability properties of
geopolymer concrete– A Review, “ BAU J Sci
Tech, vol. 3, no. 8, 2022.
- L. ElKhatib, F. A. Aridi, A. ElKordi, Adel,
Khatib, Jamal M., “Selected properties on
geopolymer concrete – A review,” III
International Turkish World Engineering and
Science Congress, 2021, pp. 337-345.
- V.T. de Sande, M. Sadique, A. Bras, P. Pineda,
“Activated sugarcane bagasse ash as efficient
admixture in cement-based mortars:
Mechanical and durability improvements,” J
Build Eng, vol. 59, no. 105082. Nov, 2022.
- B. Patnaik, J. Chimdi, T. S. Sekhar, “Bermuda
grass ash as a sustainable cementing material in
concrete for ethiopian construction industry,”
Mater Today-Proc, vol. 1, no. 62, pp. 7261-7264,
Jan, 2022.