Bending–Spinning Produces Silkworm and Spider Silk with Enhanced Mechanical Properties by Zhangchuan Peng (6330059)

“…In this study, the angle of freshly secreted silkworm (FS-S) silk was revealed to be 70.23°–87.93° and that of freshly secreted spider major ampullate (FS-MA) silk to be 0°–50°. Furthermore, the mechanical properties of FS-S silk and FS-MA silk changed after bending, first increasing and then decreasing as the bending angle was increased (0°–360°). …”

Bending–Spinning Produces Silkworm and Spider Silk with Enhanced Mechanical Properties by Zhangchuan Peng (6330059)

“…In this study, the angle of freshly secreted silkworm (FS-S) silk was revealed to be 70.23°–87.93° and that of freshly secreted spider major ampullate (FS-MA) silk to be 0°–50°. Furthermore, the mechanical properties of FS-S silk and FS-MA silk changed after bending, first increasing and then decreasing as the bending angle was increased (0°–360°). …”

Bending–Spinning Produces Silkworm and Spider Silk with Enhanced Mechanical Properties by Zhangchuan Peng (6330059)

“…In this study, the angle of freshly secreted silkworm (FS-S) silk was revealed to be 70.23°–87.93° and that of freshly secreted spider major ampullate (FS-MA) silk to be 0°–50°. Furthermore, the mechanical properties of FS-S silk and FS-MA silk changed after bending, first increasing and then decreasing as the bending angle was increased (0°–360°). …”

Bending–Spinning Produces Silkworm and Spider Silk with Enhanced Mechanical Properties by Zhangchuan Peng (6330059)

“…In this study, the angle of freshly secreted silkworm (FS-S) silk was revealed to be 70.23°–87.93° and that of freshly secreted spider major ampullate (FS-MA) silk to be 0°–50°. Furthermore, the mechanical properties of FS-S silk and FS-MA silk changed after bending, first increasing and then decreasing as the bending angle was increased (0°–360°). …”

Bending–Spinning Produces Silkworm and Spider Silk with Enhanced Mechanical Properties by Zhangchuan Peng (6330059)

“…In this study, the angle of freshly secreted silkworm (FS-S) silk was revealed to be 70.23°–87.93° and that of freshly secreted spider major ampullate (FS-MA) silk to be 0°–50°. Furthermore, the mechanical properties of FS-S silk and FS-MA silk changed after bending, first increasing and then decreasing as the bending angle was increased (0°–360°). …”

Hyperglycemia and hypoinsulinemia is observed in LinSTZ mice. by Véronique Cheff (14559285)

“…The high blood glucose was induced in fasted mice through five consecutive daily low-dose STZ intraperitoneal injections (50 mg/kg BW/ day). …”

A schematic of a hypothesis for two competing mechanisms that could lead to the optimal propulsive force and therefore swimming speed. by Rahul Bale (731036)

ROCK inhibitor Y-27632 on the morphology and growth of porcine trophoblast cells. by Dongxia Hou (566461)

“…E) The mean colony area curve of pPATR-5 shows similar trend with the cell number curve. …”

The effect of free rNTPs on the processivity of WT and exo^- Pol γ. by Josefin M. E. Forslund (5043218)

Evoked firing responses to stimuli in the one-cortical-column model. by Farhad Razi (22076077)

Morphological alterations of the liver and spleen, alongside the pathological features at 4× magnification, were evaluated post DMN exposure under varied intervention protocols. by Fuchun Wang (1964797)

Body weights of 8-week-old mouse F1 offspring. by Xiaoyu Liao (8161995)

S1 File - Assessment and analysis of agricultural non-point source pollution loads in Henan, China: 2001–2023 by Cangyu Li (10312677)

Resistance training as a tool for changing muscle mass and frailty status in sarcopenic older women: a quasi-experimental study by Joana Ude Viana (5223533)

“…Hence, after the intervention, we observed both a decrease in frailty and a positive change in function, since the percentage of robust women increased twice (p=0.01). …”

Ultraflexible Oxide Fibers with an Amorphous Silica Interfacial Layer on Zirconia Nanograins by Dehua Ma (500180)

“…The design of flexible, bendable, and high-strength ZSFMs offers a method for using brittle ceramic components in military and civilian applications and many other fields.…”

Ultraflexible Oxide Fibers with an Amorphous Silica Interfacial Layer on Zirconia Nanograins by Dehua Ma (500180)

“…The design of flexible, bendable, and high-strength ZSFMs offers a method for using brittle ceramic components in military and civilian applications and many other fields.…”

Ultraflexible Oxide Fibers with an Amorphous Silica Interfacial Layer on Zirconia Nanograins by Dehua Ma (500180)

“…The design of flexible, bendable, and high-strength ZSFMs offers a method for using brittle ceramic components in military and civilian applications and many other fields.…”

Ultraflexible Oxide Fibers with an Amorphous Silica Interfacial Layer on Zirconia Nanograins by Dehua Ma (500180)

“…The design of flexible, bendable, and high-strength ZSFMs offers a method for using brittle ceramic components in military and civilian applications and many other fields.…”

Ultraflexible Oxide Fibers with an Amorphous Silica Interfacial Layer on Zirconia Nanograins by Dehua Ma (500180)

“…The design of flexible, bendable, and high-strength ZSFMs offers a method for using brittle ceramic components in military and civilian applications and many other fields.…”

Sampling site overview and data analysis workflow. by Ilona Urbarova (6197741)