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Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills
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S. Qin Et Al. , "Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills," CONSTRUCTION AND BUILDING MATERIALS , vol.320, 2022

Qin, S. Et Al. 2022. Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills. CONSTRUCTION AND BUILDING MATERIALS , vol.320 .

Qin, S., Cao, S., & Yılmaz, E., (2022). Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills. CONSTRUCTION AND BUILDING MATERIALS , vol.320.

Qin, Shiwen, Shuai Cao, And EROL YILMAZ. "Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills," CONSTRUCTION AND BUILDING MATERIALS , vol.320, 2022

Qin, Shiwen Et Al. "Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills." CONSTRUCTION AND BUILDING MATERIALS , vol.320, 2022

Qin, S. Cao, S. And Yılmaz, E. (2022) . "Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills." CONSTRUCTION AND BUILDING MATERIALS , vol.320.

@article{article, author={Shiwen Qin Et Al. }, title={Employing U-shaped 3D printed polymer to improve flexural properties of cementitious tailings backfills}, journal={CONSTRUCTION AND BUILDING MATERIALS}, year=2022}