引言+我國每年改擴建及養(yǎng)護道路會產生大量的瀝青路面舊料，這不免讓人深思，是否存在一種技術能減緩舊料造成的環(huán)境污染和資源浪費，充分利用其剩余性能呢？?1什么是瀝青路面再生技術

　　Introduction: Every year in China, the renovation, expansion, and maintenance of roads generate a large amount of old asphalt pavement materials. This inevitably prompts people to ponder whether there is a technology that can slow down the environmental pollution and resource waste caused by old materials, and fully utilize their remaining performance?? What is asphalt pavement recycling technology

　　瀝青路面再生技術就是這樣一種將舊瀝青路面二次利用，通過添加再生劑、新料等材料，恢復部分回收瀝青路面材料（Reclaimed Asphalt Pavement, RAP）的原有性能，將資源化利用的養(yǎng)護技術。該技術不僅能夠節(jié)約資源、緩解公路養(yǎng)護資金短缺矛盾，而且符合我國、可持續(xù)發(fā)展的戰(zhàn)略方針，因此對廢棄舊料的再次利用已成為我國高速公路養(yǎng)護發(fā)展的重要趨勢。

　　Asphalt pavement regeneration technology is a maintenance technique that involves reusing old asphalt pavement by adding rejuvenators, new materials, and other materials to restore the original performance of reclaimed asphalt pavement (RAP) and maximize resource utilization. This technology not only saves resources and alleviates the shortage of funds for highway maintenance, but also conforms to China's strategic principles of energy conservation, environmental protection, and sustainable development. Therefore, the reuse of waste materials has become an important trend in the development of highway maintenance in China.

　　2為什么選擇冷再生

　　Why choose cold regeneration

　　再生技術的分類《公路瀝青路面再生技術規(guī)范》（JTG/T 5521-2019）將再生技術共分為5類，分別是就地熱再生、廠拌熱再生、就地冷再生、廠拌冷再生和全深式就地冷再生，通常統(tǒng)稱為冷再生和熱再生。

　　The classification of regeneration technology in the "Technical Specification for Highway Asphalt Pavement Regeneration" (JTG/T 5521-2019) divides regeneration technology into five categories, namely in-situ thermal regeneration, plant mixed thermal regeneration, in-situ cold regeneration, plant mixed cold regeneration, and full depth in-situ cold regeneration, commonly referred to as cold regeneration and hot regeneration.

　　熱再生技術的缺陷熱再生技術是將回收的RAP加熱后通過修正級配、添加再生劑以及補充新瀝青，使回收料成為優(yōu)良的再生瀝青混合料的工藝。熱再生在重新拌料時需要較高的加熱溫度，會造成較為嚴重的污染。

　　The defect of hot recycling technology is that hot recycling technology heats the recycled RAP and modifies the gradation, adds rejuvenators, and supplements new asphalt to make the recycled material an excellent recycled asphalt mixture. Hot recycling requires a higher heating temperature when re mixing materials, which can cause serious pollution.

　　冷再生技術的優(yōu)勢冷再生技術是對舊瀝青路面銑刨、破碎、篩分后，按一定比例添加新集料，以乳化瀝青或泡沫瀝青、水泥等為膠結料進行常溫拌和，進而鋪筑路面結構層的再生技術形式。相比之下，冷再生技術由于其無需加熱的特點和較高的RAP摻量，更符合我國綠色養(yǎng)護的道路發(fā)展戰(zhàn)略。技術名稱舊料利用率性技術性就地冷再生100%舊料利用無需加熱

　　The advantages of cold recycling technology The cold recycling technology is a recycling technology form that milling, crushing and screening the old asphalt pavement, adding new aggregate in a certain proportion, mixing emulsified asphalt or foam asphalt, cement, etc. at room temperature, and then paving the pavement structure layer. In contrast, cold recycling technology is more in line with China's green maintenance road development strategy due to its characteristics of not requiring heating and higher RAP content. Technical name: Utilization rate of old materials, environmental friendliness, technical on-site cold regeneration, 100% utilization of old materials without heating

　　常溫就地施工抗反射裂縫能力強

　　Strong anti reflection crack ability for on-site construction at room temperature

　　施工和易性好廠拌冷再生50%-80%無需加熱

　　Good construction and workability. Factory mixed cold recycling 50% -80% without heating

　　拌和廠拌和運輸導致破乳時間不一致，易產生離析就地熱再生75%-85%就地加熱

　　Mixing and transportation in the mixing plant result in inconsistent demulsification time, which can easily lead to segregation and on-site thermal regeneration of 75% -85%. On site heating

　　空氣污染嚴重僅用于上面層

　　Severe air pollution is only used for the upper layer

　　使用壽命短廠拌熱再生20%-40%拌和樓加熱

　　Short service life, factory mixed heat regeneration, 20% -40% mixing plant heating

　　CO2排放量高運輸費用

　　High CO2 emissions and transportation costs

　　及時間成本高3冷再生的作用機理及典型類型冷再生技術如此的秘訣在于其在再生過程中使用乳化瀝青或泡沫瀝青替代了普通瀝青。乳化瀝青是瀝青和乳化劑在一定工藝作用下，生成水包油或油包水的液態(tài)瀝青。常溫下保持液態(tài)的乳化瀝青與石料拌和后由于水的蒸發(fā)作用、吸附作用、物理化學作用等多種因素的影響下產生分解和破乳現(xiàn)象，使得乳化瀝青逐漸轉變?yōu)楣虘B(tài)[1]。

　　And the mechanism of high time cost 3 cold recycling and the secret of typical cold recycling technology that is so environmentally friendly is that it uses emulsified asphalt or foam asphalt instead of ordinary asphalt in the recycling process. Emulsified asphalt is a liquid asphalt formed by the combination of asphalt and emulsifiers under certain process conditions, resulting in water in oil or oil in water. Emulsified asphalt, which remains liquid at room temperature and is mixed with stone, undergoes decomposition and emulsion breaking due to various factors such as water evaporation, adsorption, and physical and chemical reactions, gradually transforming into a solid state.

　　泡沫瀝青是通過物理變化降低瀝青粘度，與乳化瀝青相同，二者的終目的都是實現(xiàn)瀝青材料和冷骨料的均勻拌和，形成材料強度[2]。作用機理

　　Foam asphalt reduces the viscosity of asphalt through physical changes. Like emulsified asphalt, the ultimate purpose of both is to achieve uniform mixing of asphalt materials and cold aggregates to form material strength [2]. Mechanism of action

　　典型類型

　　Typical types

　　乳化瀝青就地冷再生技術是江蘇省高速公路大量使用的冷再生養(yǎng)護技術，它具有100%利用舊料、常溫下施工、無需運輸、一體化施工等諸多優(yōu)點，多用于高速基層及一、二級公路中下面層，適用于基層穩(wěn)定、面層較差的路段[3]。與路面養(yǎng)護中常用的銑刨重鋪方案相比，半幅雙車道每10路段，使用乳化瀝青就地冷再生技術將節(jié)約石料16200噸，柴油103.2噸，減少CO2排放290噸，節(jié)約造價1330萬元。4冷再生的施工及應用實例近年來，乳化瀝青就地冷再生技術作為重載交通高速公路中面層的技術已在汾灌、寧宿徐等江蘇省高速公路上得到驗證并廣泛推廣。汾灌高速中的應用2019年汾灌高速灌汾方向兩車道各7.039km（K814+278-K825+296）進行了乳化瀝青就地冷再生施工[4]。具體實施方案為：就地冷再生10cm原中上面層，灑布防水粘結層，在撒布橡膠瀝青碎石封層后，上面加鋪5cm高強瀝青SMA-13罩面。施工流程包括：舊路裂縫處理、水泥撒布、再生、攤鋪、碾壓和養(yǎng)生。施工完成3天后，全路段均可取出完整芯樣；完成28天后，混合料芯樣劈裂強度、馬歇爾穩(wěn)定度、壓實度等均達到設計要求；完成3年后，路面各項性能均維持在優(yōu)良水平。

　　Emulsified asphalt in situ cold recycling technology is a cold recycling maintenance technology widely used in expressways in Jiangsu Province. It has many advantages such as 100% utilization of old materials, construction at normal temperature, no need for transportation, integrated construction, etc. It is mostly used for high-speed base course, middle and lower layers of Class I and second-class highway, and is suitable for sections with stable base course and poor surface course [3]. Compared with the commonly used milling and repaving scheme in road maintenance, the use of emulsified asphalt on-site cold recycling technology for every 10 kilometers of half width dual lane road will save 16200 tons of stone, 103.2 tons of diesel, reduce 290 tons of CO2 emissions, and save 13.3 million yuan in cost. In recent years, the in-situ cold recycling technology of emulsified asphalt has been validated and widely promoted as a surface layer technology for heavy-duty transportation highways in Jiangsu Province, such as Fenguan and Ningsu Xu. In 2019, on-site cold recycling construction of emulsified asphalt was carried out for 7.039km (K814+278-K825+296) on two lanes in the Guanfen direction of the Fenguan Expressway. The specific implementation plan is to cold regenerate a 10cm original upper layer on site, sprinkle a waterproof bonding layer, and after spreading a rubber asphalt crushed stone seal layer, add a 5cm high-strength asphalt SMA-13 overlay on top. The construction process includes: treatment of old road cracks, cement spreading, regeneration, paving, rolling, and curing. After 3 days of construction completion, complete core samples can be taken from the entire section of the road; After 28 days of completion, the splitting strength, Marshall stability, and compaction degree of the mixed material core sample all meet the design requirements; After 3 years of completion, all road performance remained at an excellent level.

　　結語+隨著雙碳政策的持續(xù)推進，道路養(yǎng)護技術的環(huán)境效益逐漸被道路工作者所重視。冷再生技術以其較高的舊料利用率、較低的碳排放量在道路養(yǎng)護工程中開始大量應用。盡管該技術目前尚存在綜合路用性能較差的缺點，但隨著各項研究的深入推進，相信該技術將會有更大的適用范圍和更好的使用前景。

　　Conclusion: With the continuous promotion of the dual carbon policy, the environmental benefits of road maintenance technology are gradually being valued by road workers. Cold recycling technology has been widely applied in road maintenance projects due to its high utilization rate of old materials and low carbon emissions. Although this technology currently has the disadvantage of poor comprehensive road performance, with the deepening of various studies, it is believed that this technology will have a wider range of applications and better prospects for use.

　　本文由 冷再生機租賃 友情奉獻.更多有關的知識請點擊  http://www.dzjshs.cn/   真誠的態(tài)度.為您提供為的服務.更多有關的知識我們將會陸續(xù)向大家奉獻.敬請期待.

　　This article is a friendly contribution from Cold Recycling Machine Rental For more related knowledge, please click http://www.dzjshs.cn/ Sincere attitude To provide you with comprehensive services We will gradually contribute more relevant knowledge to everyone Coming soon.引言+我國每年改擴建及養(yǎng)護道路會產生大量的瀝青路面舊料，這不免讓人深思，是否存在一種技術能減緩舊料造成的環(huán)境污染和資源浪費，充分利用其剩余性能呢？?1什么是瀝青路面再生技術

　　Introduction: Every year in China, the renovation, expansion, and maintenance of roads generate a large amount of old asphalt pavement materials. This inevitably prompts people to ponder whether there is a technology that can slow down the environmental pollution and resource waste caused by old materials, and fully utilize their remaining performance?? What is asphalt pavement recycling technology

　　瀝青路面再生技術就是這樣一種將舊瀝青路面二次利用，通過添加再生劑、新料等材料，恢復部分回收瀝青路面材料（Reclaimed Asphalt Pavement, RAP）的原有性能，將資源化利用的養(yǎng)護技術。該技術不僅能夠節(jié)約資源、緩解公路養(yǎng)護資金短缺矛盾，而且符合我國、可持續(xù)發(fā)展的戰(zhàn)略方針，因此對廢棄舊料的再次利用已成為我國高速公路養(yǎng)護發(fā)展的重要趨勢。

　　Asphalt pavement regeneration technology is a maintenance technique that involves reusing old asphalt pavement by adding rejuvenators, new materials, and other materials to restore the original performance of reclaimed asphalt pavement (RAP) and maximize resource utilization. This technology not only saves resources and alleviates the shortage of funds for highway maintenance, but also conforms to China's strategic principles of energy conservation, environmental protection, and sustainable development. Therefore, the reuse of waste materials has become an important trend in the development of highway maintenance in China.

　　2為什么選擇冷再生

　　Why choose cold regeneration

　　再生技術的分類《公路瀝青路面再生技術規(guī)范》（JTG/T 5521-2019）將再生技術共分為5類，分別是就地熱再生、廠拌熱再生、就地冷再生、廠拌冷再生和全深式就地冷再生，通常統(tǒng)稱為冷再生和熱再生。

　　The classification of regeneration technology in the "Technical Specification for Highway Asphalt Pavement Regeneration" (JTG/T 5521-2019) divides regeneration technology into five categories, namely in-situ thermal regeneration, plant mixed thermal regeneration, in-situ cold regeneration, plant mixed cold regeneration, and full depth in-situ cold regeneration, commonly referred to as cold regeneration and hot regeneration.

　　熱再生技術的缺陷熱再生技術是將回收的RAP加熱后通過修正級配、添加再生劑以及補充新瀝青，使回收料成為優(yōu)良的再生瀝青混合料的工藝。熱再生在重新拌料時需要較高的加熱溫度，會造成較為嚴重的污染。

　　The defect of hot recycling technology is that hot recycling technology heats the recycled RAP and modifies the gradation, adds rejuvenators, and supplements new asphalt to make the recycled material an excellent recycled asphalt mixture. Hot recycling requires a higher heating temperature when re mixing materials, which can cause serious pollution.

　　冷再生技術的優(yōu)勢冷再生技術是對舊瀝青路面銑刨、破碎、篩分后，按一定比例添加新集料，以乳化瀝青或泡沫瀝青、水泥等為膠結料進行常溫拌和，進而鋪筑路面結構層的再生技術形式。相比之下，冷再生技術由于其無需加熱的特點和較高的RAP摻量，更符合我國綠色養(yǎng)護的道路發(fā)展戰(zhàn)略。技術名稱舊料利用率性技術性就地冷再生100%舊料利用無需加熱

　　The advantages of cold recycling technology The cold recycling technology is a recycling technology form that milling, crushing and screening the old asphalt pavement, adding new aggregate in a certain proportion, mixing emulsified asphalt or foam asphalt, cement, etc. at room temperature, and then paving the pavement structure layer. In contrast, cold recycling technology is more in line with China's green maintenance road development strategy due to its characteristics of not requiring heating and higher RAP content. Technical name: Utilization rate of old materials, environmental friendliness, technical on-site cold regeneration, 100% utilization of old materials without heating

　　常溫就地施工抗反射裂縫能力強

　　Strong anti reflection crack ability for on-site construction at room temperature

　　施工和易性好廠拌冷再生50%-80%無需加熱

　　Good construction and workability. Factory mixed cold recycling 50% -80% without heating

　　拌和廠拌和運輸導致破乳時間不一致，易產生離析就地熱再生75%-85%就地加熱

　　Mixing and transportation in the mixing plant result in inconsistent demulsification time, which can easily lead to segregation and on-site thermal regeneration of 75% -85%. On site heating

　　空氣污染嚴重僅用于上面層

　　Severe air pollution is only used for the upper layer

　　使用壽命短廠拌熱再生20%-40%拌和樓加熱

　　Short service life, factory mixed heat regeneration, 20% -40% mixing plant heating

　　CO2排放量高運輸費用

　　High CO2 emissions and transportation costs

　　及時間成本高3冷再生的作用機理及典型類型冷再生技術如此的秘訣在于其在再生過程中使用乳化瀝青或泡沫瀝青替代了普通瀝青。乳化瀝青是瀝青和乳化劑在一定工藝作用下，生成水包油或油包水的液態(tài)瀝青。常溫下保持液態(tài)的乳化瀝青與石料拌和后由于水的蒸發(fā)作用、吸附作用、物理化學作用等多種因素的影響下產生分解和破乳現(xiàn)象，使得乳化瀝青逐漸轉變?yōu)楣虘B(tài)[1]。

　　And the mechanism of high time cost 3 cold recycling and the secret of typical cold recycling technology that is so environmentally friendly is that it uses emulsified asphalt or foam asphalt instead of ordinary asphalt in the recycling process. Emulsified asphalt is a liquid asphalt formed by the combination of asphalt and emulsifiers under certain process conditions, resulting in water in oil or oil in water. Emulsified asphalt, which remains liquid at room temperature and is mixed with stone, undergoes decomposition and emulsion breaking due to various factors such as water evaporation, adsorption, and physical and chemical reactions, gradually transforming into a solid state.

　　泡沫瀝青是通過物理變化降低瀝青粘度，與乳化瀝青相同，二者的終目的都是實現(xiàn)瀝青材料和冷骨料的均勻拌和，形成材料強度[2]。作用機理

　　Foam asphalt reduces the viscosity of asphalt through physical changes. Like emulsified asphalt, the ultimate purpose of both is to achieve uniform mixing of asphalt materials and cold aggregates to form material strength [2]. Mechanism of action

　　典型類型

　　Typical types

　　乳化瀝青就地冷再生技術是江蘇省高速公路大量使用的冷再生養(yǎng)護技術，它具有100%利用舊料、常溫下施工、無需運輸、一體化施工等諸多優(yōu)點，多用于高速基層及一、二級公路中下面層，適用于基層穩(wěn)定、面層較差的路段[3]。與路面養(yǎng)護中常用的銑刨重鋪方案相比，半幅雙車道每10路段，使用乳化瀝青就地冷再生技術將節(jié)約石料16200噸，柴油103.2噸，減少CO2排放290噸，節(jié)約造價1330萬元。4冷再生的施工及應用實例近年來，乳化瀝青就地冷再生技術作為重載交通高速公路中面層的技術已在汾灌、寧宿徐等江蘇省高速公路上得到驗證并廣泛推廣。汾灌高速中的應用2019年汾灌高速灌汾方向兩車道各7.039km（K814+278-K825+296）進行了乳化瀝青就地冷再生施工[4]。具體實施方案為：就地冷再生10cm原中上面層，灑布防水粘結層，在撒布橡膠瀝青碎石封層后，上面加鋪5cm高強瀝青SMA-13罩面。施工流程包括：舊路裂縫處理、水泥撒布、再生、攤鋪、碾壓和養(yǎng)生。施工完成3天后，全路段均可取出完整芯樣；完成28天后，混合料芯樣劈裂強度、馬歇爾穩(wěn)定度、壓實度等均達到設計要求；完成3年后，路面各項性能均維持在優(yōu)良水平。

　　Emulsified asphalt in situ cold recycling technology is a cold recycling maintenance technology widely used in expressways in Jiangsu Province. It has many advantages such as 100% utilization of old materials, construction at normal temperature, no need for transportation, integrated construction, etc. It is mostly used for high-speed base course, middle and lower layers of Class I and second-class highway, and is suitable for sections with stable base course and poor surface course [3]. Compared with the commonly used milling and repaving scheme in road maintenance, the use of emulsified asphalt on-site cold recycling technology for every 10 kilometers of half width dual lane road will save 16200 tons of stone, 103.2 tons of diesel, reduce 290 tons of CO2 emissions, and save 13.3 million yuan in cost. In recent years, the in-situ cold recycling technology of emulsified asphalt has been validated and widely promoted as a surface layer technology for heavy-duty transportation highways in Jiangsu Province, such as Fenguan and Ningsu Xu. In 2019, on-site cold recycling construction of emulsified asphalt was carried out for 7.039km (K814+278-K825+296) on two lanes in the Guanfen direction of the Fenguan Expressway. The specific implementation plan is to cold regenerate a 10cm original upper layer on site, sprinkle a waterproof bonding layer, and after spreading a rubber asphalt crushed stone seal layer, add a 5cm high-strength asphalt SMA-13 overlay on top. The construction process includes: treatment of old road cracks, cement spreading, regeneration, paving, rolling, and curing. After 3 days of construction completion, complete core samples can be taken from the entire section of the road; After 28 days of completion, the splitting strength, Marshall stability, and compaction degree of the mixed material core sample all meet the design requirements; After 3 years of completion, all road performance remained at an excellent level.

　　結語+隨著雙碳政策的持續(xù)推進，道路養(yǎng)護技術的環(huán)境效益逐漸被道路工作者所重視。冷再生技術以其較高的舊料利用率、較低的碳排放量在道路養(yǎng)護工程中開始大量應用。盡管該技術目前尚存在綜合路用性能較差的缺點，但隨著各項研究的深入推進，相信該技術將會有更大的適用范圍和更好的使用前景。

　　Conclusion: With the continuous promotion of the dual carbon policy, the environmental benefits of road maintenance technology are gradually being valued by road workers. Cold recycling technology has been widely applied in road maintenance projects due to its high utilization rate of old materials and low carbon emissions. Although this technology currently has the disadvantage of poor comprehensive road performance, with the deepening of various studies, it is believed that this technology will have a wider range of applications and better prospects for use.

　　本文由 冷再生機租賃 友情奉獻.更多有關的知識請點擊  http://www.dzjshs.cn/   真誠的態(tài)度.為您提供為的服務.更多有關的知識我們將會陸續(xù)向大家奉獻.敬請期待.

　　This article is a friendly contribution from Cold Recycling Machine Rental For more related knowledge, please click http://www.dzjshs.cn/ Sincere attitude To provide you with comprehensive services We will gradually contribute more relevant knowledge to everyone Coming soon.