Door hardware noise reduction and evaluation

What is claimed is: 1 . An exit device, comprising: a housing assembly configured for mounting to a door, wherein the housing assembly comprises a channel member and a header case at a proximal end of the channel member; a pushbar movably mounted to the housing assembly for movement between a projected position and a depressed position; a bolt mounted in the header case and operably connected with the pushbar such that movement of the pushbar drives the bolt between an extended position and a retracted position, wherein movement of the bolt from the retracted position to the extended position causes a first component to contact a second component at a point of contact; a contact dampener configured to dampen vibrations resulting from contact between the first component and the second component, wherein the contact dampener comprises a noise damping metal material; and a pushbar guide mounted to the channel member, wherein the pushbar guide comprises a lip that extends around a proximal end portion of the pushbar and defines a barrier between the header case and the proximal end portion of the pushbar such that the pushbar guide dampens impact of the pushbar against the housing assembly during depression of the pushbar. 2 . The exit device of claim 1 , wherein the first component is formed of the noise damping metal material at the point of contact. 3 . The exit device of claim 1 , wherein movement of the bolt from the extended position to the retracted position causes a third component to impact a fourth component at a point of impact; and wherein the system further comprises an impact dampener configured to dampen vibrations resulting from impact between the third component and the fourth component. 4 . The exit device of claim 3 , wherein the contact dampener and the impact dampener are of different configurations. 5 . The exit device of claim 3 , wherein the impact dampener is positioned at the point of impact. 6 . The exit device of claim 1 , wherein the first component comprises a rocker lever engaged between the pushbar and the bolt. 7 . The exit device of claim 1 , wherein the contact dampener is positioned at the point of contact. 8 . The exit device of claim 1 , wherein the first component further comprises an additional metal material different from the noise damping metal material. 9 . The exit device of claim 1 , wherein the pushbar is biased to the projected position and movable to the depressed position; and wherein a maximum peak instantaneous loudness level measured one meter from the pushbar during actuation and free return of the pushbar is no greater than 30 sones. 10 . The exit device of claim 1 , wherein the bolt is biased toward an extended position; and wherein a maximum peak instantaneous loudness level measured one meter from the bolt during free extension of the bolt is no greater than 25 sones. 11 . The exit device of claim 1 , wherein the noise damping metal material comprises a plurality of metal layers joined by one or more adhesive layers. 12 . The exit device of claim 1 , wherein the lip comprises a cutout operable to receive a portion of the pushbar when the pushbar is in the depressed position. 13 . The exit device of claim 1 , wherein the pushbar is formed of a first material; and wherein pushbar guide is formed of a second material having a lower hardness than the first material. 14 . The exit device of claim 1 , wherein each of the pushbar and the header case comprises metal; and wherein the pushbar guide is formed of a plastic material and prevents metal-to-metal contact between the pushbar and the header case. 15 . An exit device, comprising: a housing assembly configured for mounting to a door, the housing assembly comprising a channel member and a header case positioned at a proximal end of the channel member; a pushbar movably mounted to the housing assembly; a bolt mounted in the header case and operably connected with the pushbar such that movement of the pushbar drives the bolt between an extended position and a retracted position, wherein movement of the bolt from the retracted position to the extended position causes a first component to contact a second component at a point of contact; and a plastic guide member mounted to the channel member, wherein the plastic guide member receives a proximal end portion of the pushbar such that the plastic guide member forms a barrier between the pushbar and the header case to thereby dampen impact between the pushbar and the housing assembly during actuation of the pushbar; wherein the first component is formed of a noise damping metal material at the point of contact. 16 . The access control device of claim 15 , wherein the second component comprises the noise damping metal material at the point of contact. 17 . The access control device of claim 15 , further comprising a fluid damper configured to slow impact of the first component and the second component. 18 . The access control device of claim 15 , wherein the first component is the bolt. 19 . The access control device of claim 15 , wherein the housing assembly comprises the first component; and wherein the first component is stationary within the housing assembly. 20 . The access control device of claim 15 , wherein the first component comprises a rocker lever engaged between the pushbar and the bolt.