國立虎尾科技大學 |

顆粒濃度與含水量對潤滑脂的磨潤性能研究 = = Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	顆粒濃度與含水量對潤滑脂的磨潤性能研究 =/ 郭峻維.
其他題名:	Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content /
其他題名:	Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content.
作者:	郭峻維
出版者:	雲林縣 :國立虎尾科技大學 , : 民113.07.,
面頁冊數:	[14], 88面 :圖, 表 ; : 30公分.;
附註:	指導教授: 洪政豪.
標題:	過量磨耗. -
電子資源:	電子資源

顆粒濃度與含水量對潤滑脂的磨潤性能研究 = = Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content /
郭峻維

顆粒濃度與含水量對潤滑脂的磨潤性能研究 =Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content /Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content.郭峻維. - 初版. - 雲林縣 :國立虎尾科技大學 ,民113.07. - [14], 88面 :圖, 表 ;30公分.

指導教授: 洪政豪.

碩士論文--國立虎尾科技大學動力機械工程系機械與機電工程碩士班.

含參考書目.

乾淨的潤滑劑只有存在機件啟動的初期，隨著機件運轉時間增加與密封性減少，環境污染物中二氧化矽顆粒(SiO2) 與水分會逐漸進入界面間的潤滑劑，影響潤滑劑的性能。若僅以乾淨潤滑劑為標的物研究分析，將造成表面損傷嚴重性與壽命預測的嚴重失真。本論文探討最主要的兩種環境污染物SiO2 (0.0 wt%, 0.185 wt%, 1. 48 wt%)與水分(0.0 wt% ,0.3 wt%, 0.6 wt%)造成鈣基潤滑脂劣化對軸承鋼材料磨潤性能的影響，影響參數包含有水含量、總酸價、稠度等基本潤滑性質及摩擦、磨耗與點蝕損傷(Pitting)，並比較其與鋰基潤滑脂性能的差異，經由四球式實驗的主要結論有: (1)建立鈣基潤滑脂在不同量SiO2與水分污染環境下的磨耗性能曲線。(2) 建立鈣基潤滑脂在不同量SiO2與水分污染環境下的點蝕性能曲線。(3)鈣基滑脂在環境中會自然吸收水分，SiO2 含量越多其含水量相對越高。不論滑脂原先含水量多少，運轉實驗後含水量均在0.25 wt% ~ 0.40 wt%，顯示運轉系統具有穩定含水量特性。(4) 在本文含水量與顆粒濃度下的鈣基潤滑脂，實驗前後TAN均在2.93-4.84之間，顯示兩種環境污染物對TAN的影響相當輕微。(5) 不論鈣基潤滑脂含水量多寡，磨合(Running-in)與穩態磨耗(Steady wear)期間的磨耗增加率，均隨著SiO2顆粒濃度的增加而增加。(6)不論鈣基潤滑脂含水量多寡，磨合與穩態磨耗期間的點蝕面積增加率，均隨著SiO2顆粒濃度的增加而增加。(7)污染的鋰基潤滑脂在四球式磨耗實驗時，其滑脂溫度與摩擦量測值重複性比鈣基潤滑脂佳。(8)不論鈣基或鋰基潤滑脂內含顆粒濃度越多，其摩擦係數平均值均上升並且量測值的變動越大。本研究提供了解二氧化矽和水分污染對鈣基潤滑脂與鋰基潤滑脂的性能影響，可作為在特定環境中選擇適當潤滑脂，及潤滑脂界面損傷與壽命預測的參考。.

(平裝)Subjects--Topical Terms:

1451396
過量磨耗.

顆粒濃度與含水量對潤滑脂的磨潤性能研究 = = Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content /
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245 1 0 $a 顆粒濃度與含水量對潤滑脂的磨潤性能研究 = $b Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content / $c 郭峻維.
246 1 1 $a Study of the Tribological Performance of Greases under Various Particle Concentrations and Water Content.
250 $a 初版.
260 # $a 雲林縣 : $b 國立虎尾科技大學 , $c 民113.07.
300 $a [14], 88面 : $b 圖, 表 ; $c 30公分.
500 $a 指導教授: 洪政豪.
500 $a 學年度: 112.
502 $a 碩士論文--國立虎尾科技大學動力機械工程系機械與機電工程碩士班.
504 $a 含參考書目.
520 3 $a 乾淨的潤滑劑只有存在機件啟動的初期，隨著機件運轉時間增加與密封性減少，環境污染物中二氧化矽顆粒(SiO2) 與水分會逐漸進入界面間的潤滑劑，影響潤滑劑的性能。若僅以乾淨潤滑劑為標的物研究分析，將造成表面損傷嚴重性與壽命預測的嚴重失真。本論文探討最主要的兩種環境污染物SiO2 (0.0 wt%, 0.185 wt%, 1. 48 wt%)與水分(0.0 wt% ,0.3 wt%, 0.6 wt%)造成鈣基潤滑脂劣化對軸承鋼材料磨潤性能的影響，影響參數包含有水含量、總酸價、稠度等基本潤滑性質及摩擦、磨耗與點蝕損傷(Pitting)，並比較其與鋰基潤滑脂性能的差異，經由四球式實驗的主要結論有: (1)建立鈣基潤滑脂在不同量SiO2與水分污染環境下的磨耗性能曲線。(2) 建立鈣基潤滑脂在不同量SiO2與水分污染環境下的點蝕性能曲線。(3)鈣基滑脂在環境中會自然吸收水分，SiO2 含量越多其含水量相對越高。不論滑脂原先含水量多少，運轉實驗後含水量均在0.25 wt% ~ 0.40 wt%，顯示運轉系統具有穩定含水量特性。(4) 在本文含水量與顆粒濃度下的鈣基潤滑脂，實驗前後TAN均在2.93-4.84之間，顯示兩種環境污染物對TAN的影響相當輕微。(5) 不論鈣基潤滑脂含水量多寡，磨合(Running-in)與穩態磨耗(Steady wear)期間的磨耗增加率，均隨著SiO2顆粒濃度的增加而增加。(6)不論鈣基潤滑脂含水量多寡，磨合與穩態磨耗期間的點蝕面積增加率，均隨著SiO2顆粒濃度的增加而增加。(7)污染的鋰基潤滑脂在四球式磨耗實驗時，其滑脂溫度與摩擦量測值重複性比鈣基潤滑脂佳。(8)不論鈣基或鋰基潤滑脂內含顆粒濃度越多，其摩擦係數平均值均上升並且量測值的變動越大。本研究提供了解二氧化矽和水分污染對鈣基潤滑脂與鋰基潤滑脂的性能影響，可作為在特定環境中選擇適當潤滑脂，及潤滑脂界面損傷與壽命預測的參考。.
520 3 $a Clean lubricants are only present during the initial stages of machinery operation. As operating time increases and sealing effectiveness decreases, environmental contaminants such as silica particles (SiO2) and moisture gradually infiltrate the lubricant between interfaces, affecting its performance. Analyzing and studying clean lubricants alone can lead to significant distortions in surface damage severity and life expectancy predictions. This paper investigates the impact of two main environmental contaminants—SiO2 (0.0 wt%, 0.185 wt%, 1.48 wt%) and moisture (0.0 wt%, 0.3 wt%, 0.6 wt%)—on the tribological performance of calcium-based lubricating grease on bearing steel materials. The influencing factors include basic lubricant properties such as water content, total acid number (TAN), consistency, as well as friction, wear, and pitting damage. A performance comparison with lithium-based lubricating grease is also made. The main conclusions from the four-ball experiment are as follows: (1) Wear performance curves for calcium-based lubricating grease under varying levels of SiO2 and moisture contamination were established. (2) Pitting performance curves for calcium-based lubricating grease under varying levels of SiO2 and moisture contamination were established. (3) Calcium-based lubricating grease naturally absorbs moisture from the environment, with higher SiO2 content leading to relatively higher moisture levels. Regardless of the initial moisture content of the grease, post-operation moisture levels stabilize between 0.25 wt% and 0.40 wt%, indicating that the operating system maintains a stable moisture content. (4) For the calcium-based lubricating grease under the specified moisture and particle concentration conditions in this study, the TAN before and after the experiments remained between 2.93 and 4.84, indicating that the two environmental contaminants have a relatively minor impact on TAN. (5) Regardless of the moisture content in calcium-based lubricating grease, the wear rate during the running-in and steady wear phases increases with rising SiO2 particle concentration. (6) Regardless of the moisture content in calcium-based lubricating grease, the pitting area increase rate during the running-in and steady wear phases also increases with rising SiO2 particle concentration. (7) Contaminated lithium-based lubricating grease exhibited better temperature and friction measurement repeatability during the four-ball wear experiment compared to calcium-based grease. (8) For both calcium-based and lithium-based greases, higher particle concentrations led to an increase in average friction coefficients and greater variability in measurements. This study provides insights into the effects of silica and moisture contamination on the performance of calcium-based and lithium-based lubricating greases, offering references for selecting suitable greases in specific environments and for predicting interface damage and grease lifespan..
563 $a (平裝)
650 # 4 $a 過量磨耗. $3 1451396
650 # 4 $a 擦損. $3 1151112
650 # 4 $a 點蝕. $3 1151110
650 # 4 $a 水含量. $3 1025812
650 # 4 $a 顆粒. $3 1246685
650 # 4 $a 滑脂. $3 1420250
650 # 4 $a 摩擦. $3 995544
650 # 4 $a 溫度. $3 1015946
650 # 4 $a Excessive Wear. $3 1451397
650 # 4 $a Scuffing. $3 1151116
650 # 4 $a Pitting. $3 1151114
650 # 4 $a Water Content. $3 1127295
650 # 4 $a Particle. $3 1218177
650 # 4 $a Grease. $3 1347892
650 # 4 $a Friction. $3 596760
650 # 4 $a Temperature. $3 1015941
856 7 # $u https://handle.ncl.edu.tw/11296/jbh8h9 $z 電子資源 $2 http