BỘ GIÁO DỤC VÀ ĐÀO TẠO TRƯỜNG ĐẠI HỌC XÂY DỰNG HÀ NỘI NGUYỄN THANH QUANG NGHIÊN CỨU THỰC NGHIỆM VỀ TÍNH CHẤT CƠ LÝ CỦA BÊ TƠNG SỬ DỤNG CỐT LIỆU LỚN TÁI CHẾ TỪ CHẤT THẢI RẮN XÂY DỰNG VÀ ỨNG DỤNG CHO CỘT BÊ TÔNG CỐT THÉP CHỊU NÉN ĐÚNG TÂM LUẬN ÁN TIẾN SĨ Ngành: Kỹ thuật xây dựng Mã ngành: 9580201 Hà Nội – Năm 2022 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat BỘ GIÁO DỤC VÀ ĐÀO TẠO TRƯỜNG ĐẠI HỌC XÂY DỰNG HÀ NỘI NGUYỄN THANH QUANG NGHIÊN CỨU THỰC NGHIỆM VỀ TÍNH CHẤT CƠ LÝ CỦA BÊ TƠNG SỬ DỤNG CỐT LIỆU LỚN TÁI CHẾ TỪ CHẤT THẢI RẮN XÂY DỰNG VÀ ỨNG DỤNG CHO CỘT BÊ TÔNG CỐT THÉP CHỊU NÉN ĐÚNG TÂM LUẬN ÁN TIẾN SĨ Ngành: Kỹ thuật xây dựng Mã ngành: 9580201 Người hướng dẫn khoa học: PGS.TS Nguyễn Hoàng Giang TS Nguyễn Ngọc Tân Hà Nội – Năm 2022 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat i LỜI CAM ĐOAN Tôi xin cam đoan cơng trình nghiên cứu tơi Các số liệu, kết nêu luận án trung thực chưa công bố cơng trình khác Tơi xin hồn tồn chịu trách nhiệm với nội dung kết luận án Tác giả luận án Nguyễn Thanh Quang TIEU LUAN MOI download : skknchat123@gmail.com moi nhat ii LỜI CẢM ƠN Trước hết, tơi xin nói lời cảm ơn sâu sắc tới hai thầy hướng dẫn dành nhiều công sức, thời gian định hướng khoa học suốt trình nghiên cứu hồn thành luận án Đề tài luận án thực Trường Đại học Xây dựng Hà Nội, hướng dẫn khoa học PGS TS Nguyễn Hoàng Giang TS Nguyễn Ngọc Tân Tôi xin chân thành cảm ơn Tổng Công ty Giấy Việt Nam hỗ trợ công việc động viên giúp đỡ thời gian nghiên cứu Tôi xin chân thành cảm ơn Dự án SATREPS No JPMJSA1701 cho tham gia nghiên cứu chất thải rắn xây dựng Việt Nam Tôi xin cảm ơn Phịng Thí nghiệm Kiểm định cơng trình - Trường Đại học Xây dựng Hà Nội hợp tác tạo điều kiện trang thiết bị thực công việc thực nghiệm Tôi xin trân trọng cảm ơn Khoa Xây dựng DD&CN, Phòng Quản lý Đào tạo Bộ môn tạo điều kiện giúp đỡ cho suốt thời gian thực cơng tác nghiên cứu luận án Xin nói lời biết ơn đến người thân gia đình động viên chia sẻ khó khăn suốt thời gian thực luận án Tác giả luận án Nguyễn Thanh Quang TIEU LUAN MOI download : skknchat123@gmail.com moi nhat iii MỤC LỤC MỞ ĐẦU 1 Lý chọn đề tài Cơ sở khoa học 3 Mục tiêu nghiên cứu 4 Đối tượng phạm vi nghiên cứu Phương pháp nghiên cứu Những đóng góp luận án Cấu trúc luận án CHƯƠNG 1: NGHIÊN CỨU TỔNG QUAN VỀ CHẤT THẢI RẮN XÂY DỰNG VÀ CÁC ĐẶC TÍNH CƠ HỌC CỦA BÊ TƠNG SỬ DỤNG CỐT LIỆU BÊ TÔNG TÁI CHẾ 1.1 Chất thải rắn xây dựng: thực trạng quản lý tái chế 1.1.1 Khái niệm chất thải rắn xây dựng .7 1.1.2 Thực trạng quản lý tái chế chất thải rắn xây dựng 1.2 Tổng quan nghiên cứu bê tông sử dụng cốt liệu tái chế từ bê tông 19 1.2.1 Tính chất cốt liệu bê tơng tái chế (CLBTTC) 19 1.2.2 Biện pháp nâng cao chất lượng cho CLBTTC 21 1.2.3 Nghiên cứu ảnh hưởng CLBTTC hỗn hợp bê tơng 23 1.3 Tính chất lý bê tông sử dụng CLBTTC 26 1.3.1 Cường độ chịu nén bê tông sử dụng CLBTTC 26 1.3.2 Mô đun đàn hồi bê tông sử sụng CLBTTC 29 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat iv 1.3.3 Tính co ngót bê tơng sử dụng cốt liệu bê tông tái chế .33 1.3.4 Quan hệ ứng suất biến dạng BTTC .35 1.3.5 Biến dạng dài hạn tính chất bê tông sử dụng CLBTTC 36 1.4 Kết cấu bê tông sử dụng cốt liệu bê tông tái chế 42 1.4.1 Một số nghiên cứu ứng dụng BTTC cấu kiện dầm, cột 42 1.4.2 Tính khả thi việc ứng dụng bê tông CLBTTC cấu kiện cột 45 1.5 Kết luận 47 CHƯƠNG PHƯƠNG PHÁP THÍ NGHIỆM TÍNH CHẤT CƠ LÝ CỦA VẬT LIỆU BÊ TÔNG SỬ DỤNG CỐT LIỆU BÊ TÔNG TÁI CHẾ 49 2.1 Cốt liệu bê tông tái chế từ CTRXD 49 2.1.1 Xác định tính chất lý vật liệu bê tông tái chế gốc 49 2.1.2 Quy trình sản xuất cố liệu bê tơng tái chế từ CTRXD 51 2.1.3 Tính chất lý cốt liệu bê tông tái chế 54 2.2 Thiết kế cấp phối bê tông sử dụng CLBTTC 64 2.3 Phương pháp thực nghiệm xác định tính chất lý bê tông sử dụng CLBTTC 66 2.3.1 Cường độ chịu nén bê tông 66 2.3.2 Mô đun đàn hồi theo bê tông 67 2.3.3 Thí nghiệm co ngót theo thời gian 68 2.3.4 Thí nghiệm từ biến theo thời gian .69 CHƯƠNG 3: KẾT QUẢ THỰC NGHIỆM XÁC ĐỊNH TÍNH CHẤT CƠ LÝ CỦA BÊ TÔNG SỬ DỤNG CỐT LIỆU BÊ TÔNG TÁI CHẾ 78 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat v 3.1 Sự phát triển cường độ chịu nén bê tông sử dụng CLBTTC theo thời gian 78 3.2 Sự phát triển mô đun đàn hồi bê tông sử dụng CLBTTC 81 3.3 Mối liên hệ cường độ chịu nén mô đun đàn hồi 83 3.4 Tính co ngót bê tơng sử dụng CLBTTC 87 3.5 Quan hệ ứng suất biến dạng bê tông sử dụng CLBTTC 92 3.6 Biến dạng từ biến bê tông sử dụng CLBTTC 96 3.6.1 Kiểm tra nhiệt độ độ ẩm môi trường 96 3.6.2 Kết xác định biến dạng từ biến 98 3.6.3 Từ biến đặc trưng hệ số từ biến 103 3.7 Kết luận 104 CHƯƠNG 4: NGHIÊN CỨU THỰC NGHIỆM ỨNG XỬ NÉN CỦA CỘT BÊ TÔNG CỐT THÉP SỬ DỤNG CỐT LIỆU BÊ TÔNG TÁI CHẾ 106 4.1 Mở đầu 106 4.2 Thiết kế thí nghiệm cột BTTC chịu nén tâm 107 4.2.1 Mơ hình thí nghiệm 107 4.2.2 Quy trình thí nghiệm .109 4.3 Cấp phối bê tông 110 4.4 Ứng xử cột BTTC chịu tải nén dọc trục 112 4.4.1 Mơ hình thí nghiệm 112 4.4.2 Kết đo thí nghiệm cột .113 4.4.3 Dạng phá hoại mẫu cột BTTC 119 4.5 Kết luận 122 KẾT LUẬN 124 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat vi Kết luận 124 Kiến nghị 125 TÀI LIỆU THAM KHẢO 127 TIEU LUAN MOI download : skknchat123@gmail.com moi nhat vii DANH MỤC CHỮ VIẾT TẮT CLTN : Cốt liệu tự nhiên CLBTTC : Cốt liệu Bê tông tái chế BTCLTC : Bê tông sử dụng cốt liệu tái chế BTCLTN : Bê tông sử dụng cốt liệu tự nhiên CLNBTTC : Cốt liệu nhỏ bê tông tái chế CLLBTTC : Cốt liệu lớn bê tông tái chế CTR : Chất thải rắn CTRXD : Chất thải rắn xây dựng CP0 : Bê tông tự nhiên đối chứng CP50 : Bê tông thay 50% CLBTTC CP100 : Bê tông thay 100% CLBTTC r (%) : tỷ lệ thay CLBTTC so với CLTN KLTT : Khối lượng thể tích N/X : Nước / Xi măng TCVN : Tiêu chuẩn Việt Nam fcm (MPa) : Cường độ chịu nén mẫu t (ngày) Pt (kN) : Tải trọng phá hoại mẫu t (ngày) F (mm2) : Tiết diện chịu lực mẫu Et (GPa) : Mô đun đàn hồi mẫu t (ngày)  : Ứng suất bê tông t (ngày)  : Biến dạng nén dọc trục t (ngày) 𝜀𝑡 (x10-6 m/m) : Giá trị co ngót t (ngày) c (x10-6 m/m) : Biến dạng từ biến TIEU LUAN MOI download : skknchat123@gmail.com moi nhat (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam viii DANH MỤC BẢNG BIỂU Bảng 1 Khối lượng CTRXD số địa phương [2] .10 Bảng Chiến lược quốc gia quản lý chất thải rắn đến năm 2025 11 Bảng Tái chế CTRXD số quốc gia 17 Bảng Tỷ lệ giảm cường độ chịu nén bê tông CLBTTC số kết nghiên cứu 28 Bảng Tỷ lệ giảm giá trị mô-đun đàn hồi thay 100% cốt liệu lớn tự nhiên cốt liệu lớn tái chế từ BT vỡ số nghiên cứu 30 Bảng Cường độ chịu nén mẫu bê tông khoan 51 Bảng 2 Khối lượng mẫu cốt liệu lớn để thử độ mòn va đập 57 Bảng Số lượng bi thép sử dụng máy Los Angeles .58 Bảng Tính chất CLBTTC 62 Bảng Cấp phối B30 cho BTTC BTTN 64 Bảng Thành phần hạt 65 Bảng Cường độ chịu nén bê tông theo thời gian 78 Bảng Mô đun đàn hồi cấp phối theo thời gian 81 Bảng 3 Kết đo co ngót bê tơng CP0 .88 Bảng Kết đo co ngót bê tơng CP50 .89 Bảng Kết đo co ngót bê tơng CP100 90 Bảng Tải trọng biến dạng bê tông 92 Bảng Tải trọng thí nghiệm đo từ biến bê tông 96 Bảng Kết tính tốn mơ đun đàn hồi tức thời 99 Bảng Kết đo thí nghiệm mẫu đo từ biến CP0 100 Bảng 10 Kết đo thí nghiệm mẫu đo từ biến CP50 .101 (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam TIEU LUAN MOI download : skknchat123@gmail.com moi nhat (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 131 Construction and Building Materials Vol 21(1, Jan 2007), pp Pp 164-175., 2007 [40] Cabral A E B., Schalch V., Molin D C C D and Ribeiro J L D (2010), "Mechanical properties modeling of recycled aggregate concrete," Constr Build Mater, pp 24, 421-430 [41] CEB-FIB Model Code (1990) Design code Comite Euro-International du Beton [42] Choi W C and Yun H D (2012), "Compressive behavior of reinforced concrete columns with recycled aggregate under uniaxial loading," Engineering Structures, p 41: 285–293 [43] Collins R J (1996), "Increasing the use of recycled aggregates in construction," International Conference on Concrete in the Service of Mankind, University of Dundee, Scotland (UK), 24-26 June 1996, London-Weinheim-New YorkTokyo- Melbourne-Madras, E & FN SPON, vol Vol Concrete for Environment Enhancement and Protection, pp 73-80 [44] Cong Shi Kou, PhD thesis (2006), Reusing recycled aggregates in structural concrete, The Hong Kong polytechnic university [45] De Oliveira M B., Vazquez E (1996), "The influence of retained moisture in aggregate from recycling on the properties of new hardened concrete," Waste Manag (16), p 113–117 [46] Deutsches Institut für Normung (DIN) (2002), "Gesteinskörnungen für Beton und Mörtel – Teil 100: Rezyklierte Gesteinskörnungen," Deutsche Norm DIN 4226- 100:2002-02 [47] Deyu Kong., Ting Lei., Jianjun Zheng., Chengchang Ma., Jun Jiang and Jing Jiang (2010), "Effect and mechanism of surface-coating pozzalanics materials around aggregate on properties and ITZ microstructure of recycled aggregate concrete," Construction and Building Materials 24, p Pp 701–708 (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam TIEU LUAN MOI download : skknchat123@gmail.com moi nhat (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 132 [48] Dhir R K., Limbachiya M C and Leelawat T (1999), "Suitability of recycled aggregate for use in BS 5328 designated mixes," Proceedings of the Institution of Civil Engineers, p 134:257–274 [49] Dillmann R (1998), "Concrete with recycled concrete aggregate," Proceedings of International Symposium on Sustainable Construction: Use of Recycled Concrete Aggregate, University of Dundee, Scotland, p 239–253, 11–12 November, 1998 [50] Domingo-Cabo A., Lázaro C., López-Gayarre F., Serrano-López M A., Serna P and Casto-Tabares J O (2009), "Creep and shrinkage of recycled aggregate concrete," Construction and Building Materials Vol23 (July 2009), p Pp 2545–2553 [51] Dong V P T., Abbas A., Amjad A., Thi N C., Ayman E and Yen T H N (2021), "Recycled Concrete Aggregate for Medium-Quality Structural Concrete," Aggregate for Medium-Quality Structural Concrete Materials 2021,14, 4612 [52] EN-1992-1-1 (2008) Eurocode - Design of concrete structures, Part 1-1: General rules and rules for buildings Comité Européen de Normalisation (CEN), Brussels, Belgium, 259 p [53] EN1992-1-1: Eurocode (2004), "Design of concrete structures - Part 1-1: General rules and rules for buildings" [54] Erik K Lauritzen., "Demolition and Reuse of Concrete and Masonry: Guidelines for Demolition and Reuse of Concrete and Masonry," Proceedings of the Third International RILEM Symposium, E & EN Spon, London, Odense, Denmark, p Pp 627., 1993 [55] Esa M R., Halog A and Rigamonti L (2017), "Developing strategies for managing construction and demolition wastes in Malaysia based on the concept (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam TIEU LUAN MOI download : skknchat123@gmail.com moi nhat (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 133 of circular economy," Journal of Material Cycles and Waste Management, pp 19(3), 1144-1154 [56] Eurostat (2018), "Waste statistics," Retrieved 17 March 2020 from https://ec.europa.eu/eurostat/statisticsexplained/index.php/Waste_statistics#Total_waste_generation [57] Zhiheng Deng., Li Chen., Jian Qian., and Chaolou Meng (2013), Experimental Study on Stress-strain Curve of Recycled Coarse Aggregate Concrete under Uniaxial Compression Applied Mechanics and Materials Vols 357-360 (2013) pp 1415-1419 [58] F Pacheco-Torgal., V W Y Tam., J A Labrincha and J de Brito (2013), Handbook of recycled concrete and demolition waste, Civil 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(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam TIEU LUAN MOI download : skknchat123@gmail.com moi nhat (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 134 [64] Gómez- Soberón J M (2002), "Shrinkage of concrete with replacement of aggregate with recycled concrete aggregate," ACI Special Publications, 209, p 475–496 [65] Gomez, Jose M., Vasquez E and Agullo L., 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(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 135 [73] Hansen T.C (1992), "Demolition and Reuse of Concrete and Masonry: recycling of demolished concrete, recycling of masonry rubble, and localised cutting by blasting of concrete,," RILEM report 6, E & EN Spon, London [74] Hao T., Zhao L and Du Z (2012), " Experimental study on compressive performance of R.C columns with recycled aggregate," Key Engineering Materials , p 517: 589–594 [75] Hoang N H., Ishigaki T., Kubota R., Tong T K., Nguyen T T., Nguyen H G., Yamada M and Kawamoto K (2020), "Waste generation, composition, and handling in building-related construction and demolition in Hanoi, Vietnam," Waste Management, pp 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(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam 137 [89] Kliszczewicz A and Ajdukiewicz A (2006), "On behaviour of reinforcedconcrete beams and columns made of recycled aggregate concrete," Archives of Civil Engineering, 52 (2), pp 289-304 [90] Kou S C (2006), "Reusing recycled aggregates in structural concrete (PhD Thesis)," The Hong Kong Polytechnic University, Hong Kong [91] Kou S C and Poon C S (2008), "Mechanical proper ties of 5-year-old concrete prepared with recycled aggregates obtained from three different sources," Mag Concrete Res 60(1), p 57–64 [92] Kwan W H., Kenn M R., Kam K J and Sulieman M Z (2012), "Influence of the amount of recycled coarse aggregate in 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(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam (LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam(LUAN.an.TIEN.si).nghien.cuu.thuc.nghiem.ve.tinh.chat.co.ly.cua.be.tong.su.dung.cot.lieu.lon.tai.che.tu.chat.thai.ran.xay.dung.va.ung.dung.cho.cot.be.tong.cot.thep.chiu.nen.dung.tam