RETRACTION: Prediction of the effects of nanoparticles on early-age compressive strength of ash-based geopolymers by fuzzy logic (Retraction of Vol 22, Pg 247, 2013)

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作者：

Nazari, A.

Riahi, S.

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JOURNAL OF COMPOSITE MATERIALS | 2019年 / 53卷 / 28-30期

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TB33 [复合材料];

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页码：4428 / 4428

页数：1

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共 36 条

[1] RETRACTION: Prediction of the effects of nanoparticles on early-age compressive strength of ash-based geopolymers by fuzzy logic. (Retraction of Vol 22, Pg 247, 2013)
Nazari, A.
Riahi, S.
INTERNATIONAL JOURNAL OF DAMAGE MECHANICS, 2020, 29 (01) : 202 - 202
[2] RETRACTION: The effects of nanoparticles on early age compressive strength of ash-based geopolymers (Retraction of Vol 38, Pg 4467, 2012)
Riahi, Shadi
Nazari, Ali
CERAMICS INTERNATIONAL, 2021, 47 (08) : 11825 - 11825
[3] RETRACTION: Predicting the effects of nanoparticles on compressive strength of ash-based geopolymers by gene expression programming (Retraction of Vol 23, Pg 1677, 2013)
Nazari, Ali
Riahi, Shadi
NEURAL COMPUTING & APPLICATIONS, 2020, 32 (11): : 7581 - 7581
[4] RETRACTION: Predicting the effects of nanoparticles on early age compressive strength of ash-based geopolymers by artificial neural networks (Retraction of Vol 31, Pg 743, 2019)
Riahi, Shadi
Nazari, Ali
NEURAL COMPUTING & APPLICATIONS, 2020, 32 (19): : 15671 - 15671
[5] RETRACTION: Fuzzy logic-based prediction of compressive strength of lightweight geopolymers (Retraction of Vol 23, Pg 865, 2013)
Nazari, Ali
NEURAL COMPUTING & APPLICATIONS, 2020, 32 (22): : 17115 - 17115
[6] Retraction Note to: Predicting the effects of nanoparticles on early age compressive strength of ash-based geopolymers by artificial neural networks
Shadi Riahi
Ali Nazari
Neural Computing and Applications, 2020, 32 : 15671 - 15671
[7] RETRACTED: Prediction of the effects of nanoparticles on early-age compressive strength of ash-based geopolymers by fuzzy logic (Retracted article. See vol. 29, pg. 202, 2020)
Nazari, Ali
Riahi, Shadi
INTERNATIONAL JOURNAL OF DAMAGE MECHANICS, 2013, 22 (02) : 247 - 267
[8] RETRACTION: ANFIS-based prediction of the compressive strength of geopolymers with seeded fly ash and rice husk-bark ash (Retraction of Vol 22, Pg 689, 2013)
Nazari, Ali
Khalaj, Gholamreza
Riahi, Shadi
NEURAL COMPUTING & APPLICATIONS, 2020, 32 (15): : 11957 - 11957
[9] Retraction Note to: Predicting the effects of nanoparticles on compressive strength of ash-based geopolymers by gene expression programming
Ali Nazari
Shadi Riahi
Neural Computing and Applications, 2020, 32 : 7581 - 7581
[10] Retraction Note to: Fuzzy logic-based prediction of compressive strength of lightweight geopolymers
Ali Nazari
Neural Computing and Applications, 2020, 32 : 17115 - 17115

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