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reduction decrease » reduction decreased (Expand Search), reduction reuse (Expand Search), production increases (Expand Search)
nn decrease » _ decrease (Expand Search), mean decrease (Expand Search), gy decreased (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
reduction decrease » reduction decreased (Expand Search), reduction reuse (Expand Search), production increases (Expand Search)
nn decrease » _ decrease (Expand Search), mean decrease (Expand Search), gy decreased (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
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1
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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2
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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3
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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4
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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5
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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6
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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7
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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8
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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9
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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10
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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11
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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12
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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13
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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14
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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15
Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces
Published 2025“…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. …”
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16
Table 1_Effects of two kinds of vestibular function training on reducing motion sickness in college students.docx
Published 2025“…In the visual-motion cage rotating chair group, in addition to a reduction in the percentage of adjacent normal-to-normal intervals which differed by more than 50 ms (pNN50), as well as decreases in low-frequency power (LF), an increase in LF/HF was observed. …”