Stiction

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Stiction is an informal portmanteau of the term "static friction" (μs), perhaps also influenced by the verb "stick".

Two solid objects pressing against each other (but not sliding) will require some threshold of force parallel to the surface of contact in order to overcome static cohesion. Stiction is a threshold, not a continuous force.

In situations where two surfaces with areas below the micrometer range come into close proximity (as in an accelerometer), they may adhere together. At this scale, electrostatic and/or Van der Waals and hydrogen bonding forces become significant. The phenomena of two such surfaces being adhered together in this manner is called stiction. Stiction may be related to hydrogen bonding or residual contamination.

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[edit] Experiment to demonstrate stiction

Place a wooden block near one end of a long wooden board. Leaving the far end of the board on the floor, lift the end with the block until the slope of the board is sufficient for the block to begin sliding downward without being pushed. Then lower the board slightly.

Placing the block again at the top, it will not begin to slide on its own. However, it will begin and continue to slide if given a small initial push. The push adds the necessary force to overcome stiction. Once the block is moving, it no longer requires the larger force.

[edit] Stiction and automobile driving

Stiction is also the same threshold at which a rolling object would begin to slide over a surface rather than rolling at the expected rate (and in the case of a wheel, in the expected direction). In this case, it's called "rolling friction" or μr.

This is why driver training courses teach that if a car begins to slide sideways, the driver should try to steer in the same direction as the slide with no brakes. It gives the wheels a chance to regain static contact by rolling, which gives the driver some control again. An overenthusiastic driver may "squeal" the driving wheels trying to get a rapid start but this impressive display of noise and smoke is less effective than maintaining static contact with the road. Many stunt-driving techniques are also done by deliberately breaking and/or regaining this rolling friction.

A car on a slippery surface can slide a long way if the driver "locks" the wheels in stationary positions by pressing hard on the brakes. Anti-lock braking systems use some means of detecting this dangerous situation automatically, then interrupt the braking, giving the tires a chance to re-establish the higher resistance of stiction many times per second in rapid succession. Anti-lock brakes can be much more effective than cadence braking which is essentially a non-automatic technique for doing the same thing, though human beings quickly adapt to the same level of risk (see Risk Compensation).

[edit] Example of stiction

In the TV Series Takeshi's Castle, contestants must run over numerous rollers to reach the other side without falling. Depending on the athlete's balance and weight, some are able to scale across without creating too much rolling movement, whilst others break the stiction point, create the rolling motion, and fall early on.

[edit] Stiction In Surface Micromachining (MEMS Fabrication)

Stiction or adhesion between the substrate (usually Silicon based) and the microstructure occurs during the isotropic wet etching of the sacrificial layer. The capillary forces due to the surface tension of the liquid between the microstructure and substrate during drying of the wet etchant cause the two surfaces to adhere together. Separating the two surfaces is often complicated due to the fragile nature of the microstructure. Stiction is often circumvented by the use of a sublimating fluid ( often supercritical CO2) which has extremely low surface tension) drying process where the liquid phase is bypassed. CO2 displaces the rinsing fluid and is heated past the supercritical point. As the chamber pressure is slowly released the CO2 sublimates thereby preventing stiction.

[edit] Stiction and Hard Disk Drives

In the context of hard disk drives, stiction refers to the tendency of read/write heads to stick to the platters. Stiction is a complex and not very well understood phenomenon of hard disks. Stiction most likely occurs as a result of 2 properties of the platters, smoothness and magnetic forces. Once the heads have stuck to the platters, the disk will be prevented from spinning up and can cause physical damage to the media. Other forces considered as responsible for stiction include electrostatic forces and adhesion from the inherent stickiness of silicon.[citation needed]

In the early models of hard disk drives stiction was known to cause read/write heads to stick the platters of the hard drive due to the breakdown of lubricants used to coat the platters. During the late 1980s and early 1990s as the size of hard drive platters decreased from the older 8" and 5.25" sizes to 3.5" and smaller, manufacturers continued to use the same calendering processes and lubricants used on the older, larger drives. The much tighter space caused much higher internal operating temperatures in these newer smaller drives, often leading to an accelerated breakdown of the surface lubricants into their much stickier components. When the drive was powered off and would cool down(say at the end of the day when a user went home and shut off their PC), these now-broken-down lubricants would become quite viscous and sticky, sometimes causing the read/write heads to literally stick to the platter. The common solution to this problem was the counter-intuitive move of taking the affected drive out of the host system, striking it gently, but firmly on the side against a desk or something as laterally as possible and then re-install it in the host system. This would break the heads free of the goop long enough to power the system back on, have the drive spin up and recover whatever data could be retrieved off it. While the data was retrieved, the machine would be left on constantly so that the heat from the drive's internals would keep the decaying lubricants in a liquid state.

[edit] Stiction and digital storage tapes

Stiction may also manifest itself on computer tapes (9 track tape etc). The magnetic surface of the tape would be heated against the read head in the tape deck, and when the tape stopped moving would cool slightly and "glue" onto the read head. This could be avoided by configuring the software so that the tape could be read continuously. Discussion by data recovery firm

[edit] Stiction and amateur astronomy

Additionally, the term has come into use in amateur astronomy circles to describe a characteristic of Dobsonian style Altazimuth mounts. These mounts can resist initial movement by the user, making it difficult to track an object in the sky. Breaking this resistance requires enough force to cause the observer to overshoot the object.

[edit] Stiction and stereolithography

Typically the phenomenon occurs when “green” epoxy photopolymer components are left in direct contact with each other. If left long enough it appears that “cross-linking” of the polymer takes place in the region of contact. This effectively “welds” or more appropriately “glues” the parts together. This issue can have a significant impact on models where testing of kinematics are required. To avoid stiction in stereolithography clean and more importantly “fully” cure all geometry prior to assembly.

[edit] See also