Why pens have rubbery grips

Dzidek, Brygida; Bochereau, Séréna; Johnson, S. A.; Hayward, Vincent; Adams, M.J.

doi:10.1073/pnas.1706233114

Cited by 55 publications

(56 citation statements)

References 36 publications

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“…Thus, for a fast finger movement, the ultrasonic stimulation started sooner after the onset of the tactile exploration. There is evidence that stable contact between the finger and the surface takes time to build [47] and that specific phenomena such as partial slip of the finger-surface contact area take place at the start of the sliding [48]. These results suggest that the onset dynamics of the sliding finger are influenced by its speed and that their characteristics for fast speed interfere with the frictional reduction induced by stepwise ultrasonic stimulation.…”

Section: Discussionmentioning

confidence: 96%

The Perception of Ultrasonic Square Reductions of Friction With Variable Sharpness and Duration

Gueorguiev

Vezzoli

Sednaoui

et al. 2019

IEEE Trans. Haptics

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The human perception of square ultrasonic modulation of the finger-surface friction was investigated during active tactile exploration by using short frictional cues of varying duration and sharpness. In a first experiment, we asked participants to discriminate the transition time and duration of short square ultrasonic reductions of friction. They proved very sensitive to discriminate millisecond differences in these two parameters with the average psychophysical thresholds being 2.3-2.4 ms for both parameters. A second experiment focused on the perception of square friction reductions with variable transition times and durations. We found that for durations of the stimulation larger than 90 ms, participants often perceived three or four edges when only two stimulations were presented while they consistently felt two edges for signals shorter than 50 ms. A subsequent analysis of the contact forces induced by these ultrasonic stimulations during slow and fast active exploration showed that two identical consecutive ultrasonic pulses can induce significantly different frictional dynamics especially during fast motion of the finger. These results confirm the human sensitivity to transient frictional cues and suggest that the human perception of square reductions of friction can depend on their sharpness and duration as well as on the speed of exploration.

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Section: Discussionmentioning

confidence: 96%

The Perception of Ultrasonic Square Reductions of Friction With Variable Sharpness and Duration

Gueorguiev

Vezzoli

Sednaoui

et al. 2019

IEEE Trans. Haptics

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“…Furthermore, the friction of the fingerpad skin is affected by normal force and hydration [14,15,37,43], contact area, surface roughness, motion direction and sliding speed [44]. Additionally, for some materials the friction increases dramatically after the grasp is initiated, due to the reconfiguration of keratin molecules at the interface, meaning that an estimate of low friction made at initial contact may lead to a substantial overestimation of the grip force required a few seconds later [45]. Therefore, while sensing friction at initial contact is beneficial for securely lifting an object, it may not be appropriate for ongoing maintenance of a secure grip.…”

Section: B Friction Sensing On Initial Contactmentioning

confidence: 99%

Tactile Sensors for Friction Estimation and Incipient Slip Detection—Toward Dexterous Robotic Manipulation: A Review

et al. 2018

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“…We designed an experimental apparatus that can measure contact forces and finger contact area over time to test how these quantities are related to human stickiness perception (see Figure 1). We also measured the moisture of the participant's fingerpad, as moisture tends to change physical interactions between the skin and a surface (Tomlinson et al, 2011;Derler et al, 2015;Dzidek et al, 2017;Gueorguiev et al, 2017). Moreover, we took the comfort of the participants into account by not attaching any fixtures to the finger and by making the finger-glass interaction direction downward.…”

Section: Apparatusmentioning

confidence: 99%

Physical Variables Underlying Tactile Stickiness During Fingerpad Detachment

et al. 2020

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One may notice a relatively wide range of tactile sensations even when touching the same hard, flat surface in similar ways. Little is known about the reasons for this variability, so we decided to investigate how the perceptual intensity of light stickiness relates to the physical interaction between the skin and the surface. We conducted a psychophysical experiment in which nine participants actively pressed their finger on a flat glass plate with a normal force close to 1.5 N and detached it after a few seconds. A custom-designed apparatus recorded the contact force vector and the finger contact area during each interaction as well as pre-and post-trial finger moisture. After detaching their finger, participants judged the stickiness of the glass using a nine-point scale. We explored how sixteen physical variables derived from the recorded data correlate with each other and with the stickiness judgments of each participant. These analyses indicate that stickiness perception mainly depends on the pre-detachment pressing duration, the time taken for the finger to detach, and the impulse in the normal direction after the normal force changes sign; finger-surface adhesion seems to build with pressing time, causing a larger normal impulse during detachment and thus a more intense stickiness sensation. We additionally found a strong between-subjects correlation between maximum real contact area and peak pull-off force, as well as between finger moisture and impulse.

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Why pens have rubbery grips

Cited by 55 publications

References 36 publications

The Perception of Ultrasonic Square Reductions of Friction With Variable Sharpness and Duration

The Perception of Ultrasonic Square Reductions of Friction With Variable Sharpness and Duration

Tactile Sensors for Friction Estimation and Incipient Slip Detection—Toward Dexterous Robotic Manipulation: A Review

Physical Variables Underlying Tactile Stickiness During Fingerpad Detachment

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