Articles
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Volume 16 (2015)
- Vol. 16 No. 1 1-179
- Vol. 16 No. 2 181-279
- Vol. 16 No. 3 281-365
- Vol. 16 No. 4 367-449
- Vol. 16 No. 5 451-655
- Vol. 16 No. S1 1-161
- Vol. 16 No. 6 657-728
Volume 16, Number S1, 1-161, November 2015 [Articles]
- Kwang Bo Shima, Toshiharu Kishib, Chang-Sik Choic and Tae-Ho Ahna,*
- 2015; 16(S1): 1-13
- N. Han* and F. Xing
- 2015; 16(S1): 14-21
- Elucidation of rapid reduction of water flow through concrete crack regarded as self-healing phenomenon
- Hayato Ikomaa, Toshiharu Kishib*, Yuya Sakaib and Muzafalu Kayondoa
- 2015; 16(S1): 22-27
- Youngsun Heoa and Kyoungmin Kimb,*
- 2015; 16(S1): 28-32
- M.G. Sierra Beltran and H.M. Jonkers*
- 2015; 16(S1): 33-39
- Tae-Ho Ahna, Kwang-Bo Shima and Kwang-Ho Shob,*
- 2015; 16(S1): 40-44
- Effects of air-cooled blast furnace slag fine aggregate in mortar with self-healing capability exposed to sulfuric acid attack
- Jae-Suk Ryoua, Sang-Won Haa, Tae-Ho Ahnb,* Sin-Young Bangb and Kwang Bo Shimc
- 2015; 16(S1): 45-49
- Kyoung-Min Kima, Tae-Ho Ahnb*, Kwang-Bo Shimb, Sin-Young Bangc, Jun-Hui Parkc and Kwang-Ho Shod
- 2015; 16(S1): 50-55
- Dongyeop Hana, Kyoung-Min Kimb*, Gun-Cheol Leec, Jung-Gu Choid and Gyung-Taeg Kohe
- 2015; 16(S1): 56-62
- Effect of granules on the workability and the recovery of water tightness of crack self-healing concrete
- Toshiharu Kishia, Takao Koideb and Tae-Ho Ahnc,*
- 2015; 16(S1): 63-73
- Mechanical behavior of a capsule embedded in cementitious matrix-macro model and numerical simulation
- X.F. Wanga, F. Xinga,*, Q. Xiea, N.X. Hana, T. Kishib and T.H. Ahnc
- 2015; 16(S1): 74-82
- Y.S.Lee and J.S. Ryou*
- 2015; 16(S1): 83-88
- Tomoya Nishiwaki*, Haruka Sasaki and Suk-Min Kwon
- 2015; 16(S1): 89-94
- Tetsuya Murakamia, Tae-Ho Ahnb*, Tatsuro Hashimotoc, Norihiko Ogurac, Toshiharu Kishid and Kwang Bo Shime
- 2015; 16(S1): 95-97
- Zhihai Lina,* and Toshiharu Kishib
- 2015; 16(S1): 98-103
- Hyung-Suk Junga, Hyun-Ki Choib and Chang-Sik Choia,*
- 2015; 16(S1): 104-109
- Yong-Sik Chu*, Jae-Wan Park and Jae-Hyun Jeong
- 2015; 16(S1): 110-113
- Crack self-healing behavior in silicon carbide composite ceramics to secure structural integrity and improve economics
- Pete Sihyun Leea, Tae-Ho Ahnb, Sung-Hun Kimc, Hyun-Mi Kimc and Kwang-Bo Shimb,*
- 2015; 16(S1): 114-131
- Norihiko Oguraa, Hiroshi Nishia, Hideki Manabea and Tae-Ho Ahnb*
- 2015; 16(S1): 132-137
- Effect of incorporation of self healing admixture (SHA) on physical and mechanical properties of mortars
- Byung Wan Joa, M.Ali Sikandarb*, Zafar Balochb, R.M.Asad Khanb
- 2015; 16(S1): 138-143
- Kyoung-Min Kima and Tae-Ho Ahnb*
- 2015; 16(S1): 144-148
- A Study on the reinforced CFS using the concept of self-healing repair methods in bottom side for damaged highway RC slabs
- Chan-Ho Wona, Tadashi Abeb, Tae-Ho Ahnc, Kwang-Bo Shimc and Byung-Wan Jod,*
- 2015; 16(S1): 149-155
- Feasibility study on the fatigue characteristics of the reinforced CFS with selfhealing repair methods for RC slabs
- Tadashi Abea, Chan-Ho Wonb*, Tae-Ho Ahnc, Kwang Bo Shimc and Byung-Wan Jod
- 2015; 16(S1): 156-161
Copyright 2019 International Orgranization for Ceramic Processing. All rights reserved.Clean-Energy Research Institute(CRI), Hanyang University, 222, Wangsimni-ro, Seongdong-gu, Seoul, 04763, Korea
E-mail: jcpr@hanyang.ac.kr