Search alternatives:
significantly predicted » significantly reduced (Expand Search), significantly reduce (Expand Search), significant predictor (Expand Search)
predicted decrease » predicted secreted (Expand Search), reported decrease (Expand Search)
greater decrease » greatest decrease (Expand Search), greater increase (Expand Search), greater disease (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
significantly predicted » significantly reduced (Expand Search), significantly reduce (Expand Search), significant predictor (Expand Search)
predicted decrease » predicted secreted (Expand Search), reported decrease (Expand Search)
greater decrease » greatest decrease (Expand Search), greater increase (Expand Search), greater disease (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
-
1
-
2
-
3
-
4
-
5
-
6
-
7
-
8
-
9
-
10
-
11
Microhardness of various samples.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
12
Shot peening process parameters.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
13
Schematic diagram of pin-disk wear.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
14
Parameters of the sliding wear test.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
15
Finite element model of shot peening.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
16
Wear morphology of the UT sample.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
17
Surface roughness of various samples.
Published 2024“…The shot peening intensity increased with increasing particle diameter; a greater shot peening intensity corresponded to a greater surface hardness of the material, the maximum hardness was 592 HV<sub>0.2</sub>, and the residual compressive stress on the material surface was 725 MPa. …”
-
18
-
19
-
20
<b>Nest mass in forest tits </b><b><i>Paridae</i></b><b> </b><b>increases with elevation and decreasing body mass, promoting reproductive success</b>
Published 2025“…We examined how the nest mass of three cavity-nesting tit species <i>Paridae</i> varied across 22 mixed forests in Germany in response to elevation, canopy openness, and species body mass. We predicted that nest mass should increase with elevation and canopy openness, due to thermoregulation being more demanding in colder or warmer climatic conditions, and decrease with body mass, as larger species have greater thermoregulatory capabilities. …”