THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.THE purpose of this paper is to call attention to the need for fundamental wear investigations and to show that wear does not correlate with oiliness.A testing machine suitable for measuring both friction and wear is described. The machine, which is a modification of one previously reported by the author, uses two sets of frictional surfaces - one in the form of a track having two concentric rails and the other consisting of three small buttons with recessed centers and flat tracks on the outer edges. An important feature of the machine is that the rubbing surfaces are maintained automatically at an almost uniform degree of surface smoothness by the lapping action produced by the combined rotating and sliding motion of the buttons.The results presented lead to the following conclusions within the thin-film range investigated: A new term, “coefficient of wear,” relating wear rate and load is proposed.No attempt is made to correlate the data obtained with other types of operation or metal combinations as data on these problems are incomplete at the present time.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    High Oiliness - Low Wear?


    Additional title:

    Sae Technical Papers


    Contributors:

    Conference:

    Pre-1964 SAE Technical Papers ; 1906



    Publication date :

    1937-01-01




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English


    Keywords :


    High oiliness -- Low wear?

    Neely, G.L. | Engineering Index Backfile | 1937


    Oiliness in lubrication

    Bassett, H.N. | Engineering Index Backfile | 1932


    High-Pressure Viscosity as an Explanation of Apparent Oiliness

    Everett, H. A. | SAE Technical Papers | 1937


    THE MEASUREMENT OF THE PROPERTY OF OILINESS

    BARNARD, DANIEL P / WILSON, ROBERT E | SAE Technical Papers | 1922


    The measurement of the property of oiliness

    Wilson, Robert E. / Barnard, Danile P. | Engineering Index Backfile | 1922