摘要：【中文】本发明公开了一种合金镁阳极材料，按照质量百分数包括如下组分：锌：1％～10％；锡：0.1％～1％；镓：0.1％～1％；铝：1％～10％；余量为镁。本发明还公开了一种该阳极材料的制备方法，步骤1：在干燥的环境下，按照质量百分数称取锌、锡、镓、铝和镁各组分；并将各组分进行预处理；步骤2：将步骤1中的各组分加入到混合炉中，通入保护气体，将温度升至730℃～780℃，并搅拌18～28分钟，得到熔胶；步骤3：将步骤2中的熔胶降温至650℃～680℃，控制温度稳定，12～20分钟后浇注到模具，得到该阳极材料。本发明提高了一种合金镁阳极材料的放电稳定性，具有一定的实用性。 【EN】The invention discloses an alloy magnesium anode material which comprises the following components in percentage by mass: zinc: 1% -10%; tin: 0.1 to 1 percent; gallium: 0.1 to 1 percent; aluminum: 1% -10%; the balance being magnesium. The invention also discloses a preparation method of the anode material, which comprises the following steps of 1: weighing zinc, tin, gallium, aluminum and magnesium according to the mass percent in a dry environment; and all the components are pretreated; step 2: adding the components in the step 1 into a mixing furnace, introducing protective gas, raising the temperature to 730-780 ℃, and stirring for 18-28 minutes to obtain molten gel; and step 3: and (3) cooling the molten gel in the step (2) to 650-680 ℃, controlling the temperature to be stable, and pouring the molten gel into a mold after 12-20 minutes to obtain the anode material. The invention improves the discharge stability of the alloy magnesium anode material and has certain practicability.

摘要：【中文】本发明公开一种金属复合材料，铁合金材料中按照质量百分数包括如下组分：铁：50％～70％，铜：5％～20％，锌：5％～20％，银：1％～10％，钢：1％～10％。本发明还公开了一种该金属复合材料的制备方法；包括如下步骤：步骤1：按照质量百分数称取各组分，然后将各组分放入高温熔炼炉中，对金属进行高温熔炼，熔炼15‑30min，得到混料；步骤2：步骤1中的混料降温至660～730℃，15～30分钟二次加热熔炼，然后得到二次混料；步骤3：将步骤2中得到二次混料进行退火，降温，铸造，得到金属复合材料；本发明提高了金属复合材料的耐磨性能和力学性能。 【EN】The invention discloses a metal composite material, which comprises the following components in percentage by mass: iron: 50% -70%, copper: 5% -20%, zinc: 5% -20%, silver: 1% -10%, steel: 1 to 10 percent. The invention also discloses a preparation method of the metal composite material; the method comprises the following steps: step 1: weighing the components according to the mass percentage, then putting the components into a high-temperature smelting furnace, and smelting the metal for 15-30min to obtain a mixed material; step 2: cooling the mixed material in the step 1 to 660-730 ℃, and carrying out secondary heating smelting for 15-30 minutes to obtain a secondary mixed material; and step 3: annealing, cooling and casting the secondary mixed material obtained in the step 2 to obtain a metal composite material; the invention improves the wear resistance and mechanical property of the metal composite material.

摘要：【中文】本发明公开了一种高延展性的钛合金材料，高延展性的钛合金材料中按照质量百分数包括如下组分：钛：78％～93％；铝：5％～20％；碳化硅：0.1％～5％；锰：0.1％～3％；锡：0.1％～3％。本发明还公开了高延展性的钛合金材料的制备方法包括如下步骤：步骤1：按照质量百分数称各组分，将各组分加入到熔炼炉中并采用真空感应熔炼，得到熔炼物；步骤2：将熔炼物搅拌，控制熔炼炉温度为1850～2150℃，熔炼2～4小时，得到钛合金溶液；步骤3：将钛合金溶液浇注至模具中，退火，降温、保温，最后冷却至室温，得到钛合金材料。本发明提高了高延展性的钛合金材料的延展性能。 【EN】The invention discloses a high-ductility titanium alloy material, which comprises the following components in percentage by mass: titanium: 78% -93%; aluminum: 5% -20%; silicon carbide: 0.1 to 5 percent; manganese: 0.1% -3%; tin: 0.1 to 3 percent. The invention also discloses a preparation method of the high-ductility titanium alloy material, which comprises the following steps: step 1: weighing the components according to mass percent, adding the components into a smelting furnace, and carrying out vacuum induction smelting to obtain a smelted material; step 2: stirring the smelted materials, controlling the temperature of the smelting furnace to be 1850-2150 ℃, and smelting for 2-4 hours to obtain a titanium alloy solution; and step 3: and pouring the titanium alloy solution into a mold, annealing, cooling, preserving heat, and finally cooling to room temperature to obtain the titanium alloy material. The invention improves the extensibility of the titanium alloy material with high extensibility.

摘要：【中文】本发明公开一种高强度的有色金属复合材料，有色金属复合材料中按照质量百分数包括如下组分：铜：40％～60％，锌：1％～20％，铝：1％～20％，锡：1％～10％，铌1％～10％，二氧化硅1％～5％，醋酸纤维：1％～5％。本发明一种高强度的有色金属复合材料，通过添加高强度的金属，以及将各组分合理地组合，使得本发明有色金属复合材料具有较高的强度。 【EN】The invention discloses a high-strength non-ferrous metal composite material, which comprises the following components in percentage by mass: copper: 40% -60%, zinc: 1% -20%, aluminum: 1% -20%, tin: 1-10% of niobium, 1-10% of silicon dioxide, 1-5% of acetate fiber: 1 to 5 percent. The high-strength nonferrous metal composite material disclosed by the invention has higher strength by adding high-strength metal and reasonably combining the components.

摘要：【中文】本发明公开了一种含二氧化铅的阳极材料，含二氧化铅的阳极材料中按照质量百分数包括如下组分：铝：5％～30％；二氧化铅：0.1％～5％；钛：0.1％～5％；锰：0.1％～3％；锡：0.1％～3％；余量为镁。本发明还公开了一种该阳极材料的制备方法，包括如下步骤：步骤1：按照质量百分数称取镁、铝、二氧化铅、钛、锰和锡各组分，将各组分进行除杂干燥的预处理；步骤2：将各组分加入到混合炉中，将温度升至650℃～800℃，并搅拌15～30分钟，得到熔料；步骤3：将步骤2中得到的熔料取出注入模具中，自然冷却18～48小时后，得到含二氧化铅的阳极材料。本发明提高了含二氧化铅的阳极材料的电流效率和化学性能。 【EN】The invention discloses a lead dioxide-containing anode material, which comprises the following components in percentage by mass: aluminum: 5% -30%; lead dioxide: 0.1 to 5 percent; titanium: 0.1 to 5 percent; manganese: 0.1% -3%; tin: 0.1% -3%; the balance being magnesium. The invention also discloses a preparation method of the anode material, which comprises the following steps: step 1: weighing the components of magnesium, aluminum, lead dioxide, titanium, manganese and tin according to the mass percentage, and carrying out pretreatment of impurity removal and drying on the components; step 2: adding the components into a mixing furnace, heating to 650-800 ℃, and stirring for 15-30 minutes to obtain a melt; and step 3: and (3) taking out the molten material obtained in the step (2), injecting the molten material into a mold, and naturally cooling for 18-48 hours to obtain the lead dioxide-containing anode material. The invention improves the current efficiency and chemical property of the anode material containing lead dioxide.

摘要：【中文】本发明实施例公开了一种电磁波比吸收率的调整方法、装置、设备及存储介质。包括：获取移动终端当前的工作模式；所述工作模式包括听筒工作模式或非听筒工作模式；根据所述工作模式获取电磁波比吸收率的调整量；所述电磁波比吸收率包括头部比吸收率和体部比吸收率；将所述调整量发送至调制解调器，使得所述调制解调器根据所述调整量调整电磁波比吸收率的值。本实施例提供的电磁波比吸收率的调整方法，根据移动终端的工作模式调整电磁波比吸收率的值，可以提高调整电磁波比吸收率的准确性。 【EN】The embodiment of the invention discloses a method, a device, equipment and a storage medium for adjusting the specific absorption rate of electromagnetic waves. The method comprises the following steps: acquiring a current working mode of the mobile terminal; the working mode comprises an earphone working mode or a non-earphone working mode; acquiring the adjustment quantity of the specific absorption rate of the electromagnetic waves according to the working mode; the electromagnetic wave specific absorption rate comprises a head specific absorption rate and a body specific absorption rate; and sending the adjustment amount to a modem, so that the modem adjusts the value of the specific absorption rate of the electromagnetic waves according to the adjustment amount. The method for adjusting the specific absorption rate of the electromagnetic wave provided by the embodiment adjusts the value of the specific absorption rate of the electromagnetic wave according to the working mode of the mobile terminal, and can improve the accuracy of adjusting the specific absorption rate of the electromagnetic wave.

摘要：【中文】本发明公开一种抗氧化的复合金属材料，复合金属材料中按照质量百分数包括如下组分：铁：40％～70％，镁5％～20％，铝：5％～20％，钴1％～10％，镍：1％～5％，锰1％～5％，锆1％～5％，钪1％～5％。本发明一种抗氧化的复合金属材料，提高了复合金属材料的抗氧化的性能，也提高了其强度，具有一定的实用性。 【EN】The invention discloses an antioxidant composite metal material, which comprises the following components in percentage by mass: iron: 40-70%, magnesium 5-20%, aluminum: 5-20%, cobalt 1-10%, nickel: 1-5% of manganese, 1-5% of zirconium and 1-5% of scandium. The antioxidant composite metal material provided by the invention has the advantages that the antioxidant performance and the strength of the composite metal material are improved, and certain practicability is realized.

摘要：【中文】本发明公开了一种发酵啤酒瓜子及其加工方法，属于瓜子食品加工领域。本申请加工方法包括以下步骤：发酵麦芽汁制备：将麦芽汁按比例接入啤酒酵母，放入发酵罐中进行发酵；啤酒花浸提液的制备：以啤酒花为原料，纯净水作浸提剂，制得啤酒花浸提液；葵花籽发酵：将葵花籽加入按比例混合的以上步骤制得的麦芽汁和啤酒花浸提液的混合液中进行发酵后取出干燥即得发酵啤酒瓜子成品。本发明的发酵啤酒瓜子在啤酒花浸提液和发酵麦芽汁混合发酵的复合作用下，制得纯正啤酒风味的发酵啤酒瓜子，足以满足不同口味消费者的需求。 【EN】The invention discloses fermented beer melon seeds and a processing method thereof, and belongs to the field of melon seed food processing. The processing method comprises the following steps: preparation of fermented wort: proportionally adding beer yeast into the wort, and fermenting in a fermentation tank; preparation of hop extract: preparing hop leaching liquor by taking hops as a raw material and pure water as a leaching agent; fermenting sunflower seeds: adding sunflower seeds into the mixed solution of the wort and the hop leaching liquor which are prepared by the steps and mixed according to the proportion, taking out the mixture and drying the mixture to obtain the finished product of the fermented beer sunflower seeds. The fermented beer melon seeds prepared by the invention have pure beer flavor under the composite action of the mixing fermentation of the hop leaching liquor and the fermented wort, and can meet the requirements of consumers with different tastes.

摘要：【中文】本发明公开了一种无人机悬停机构及悬停吸附方法。无人机悬停机构包括储存有待搬运货物的无人车以及能够将待搬运货物运送至目的地的无人机，无人机包括起落架（39），无人车的车顶设置有停机坪（7），停机坪（7）上设置有磁性机构A，起落架（39）的端部设有磁性机构B；磁性机构A在通电的情况下与磁性机构B之间能够产生磁吸力，且磁性机构A与磁性机构B之间所具有的磁吸力能够确保无人机稳停在停机坪（7）上；磁性机构A在断电的情况下，磁性机构A与磁性机构B之间的磁吸力消失。由此可知，本发明通过特定的磁吸结构，实现无人机在无人车车顶上的停靠，提高无人机停靠的稳定性，操作简单便利，设计新颖。 【EN】The invention discloses an unmanned aerial vehicle hovering mechanism and a hovering adsorption method. The unmanned aerial vehicle hovering mechanism comprises an unmanned vehicle for storing goods to be transported and an unmanned aerial vehicle capable of transporting the goods to be transported to a destination, the unmanned aerial vehicle comprises an undercarriage (39), an apron (7) is arranged on the roof of the unmanned vehicle, a magnetic mechanism A is arranged on the apron (7), and a magnetic mechanism B is arranged at the end part of the undercarriage (39); magnetic attraction can be generated between the magnetic mechanism A and the magnetic mechanism B under the condition of power-on, and the magnetic attraction between the magnetic mechanism A and the magnetic mechanism B can ensure that the unmanned aerial vehicle is stably stopped on an apron (7); when the power of the magnetic mechanism A is cut off, the magnetic attraction force between the magnetic mechanism A and the magnetic mechanism B disappears. Therefore, the unmanned aerial vehicle can park on the roof of the unmanned aerial vehicle through the specific magnetic attraction structure, the parking stability of the unmanned aerial vehicle is improved, the operation is simple and convenient, and the design is novel.

摘要：【中文】本发明公开了一种适用于脐橙结果树水培的营养方案，其特征在于：根据脐橙结果树各阶段的生长特点，给予准确的肥料配方和浓度以及施肥频次方案，在营养生长期肥料配方为20‑10‑20，开花坐果期肥料配方为20‑10‑20，果实膨大期肥料配方为17‑4‑17‑4Ca‑1Mg，果实转色期肥料配方为13‑4‑20‑4Ca‑3Mg，采果后肥料配方为20‑10‑20，肥料浓度为EC值1.0‑1.5，施肥频次为每30‑45天补充或更换一次肥料。本发明营养方案所用水溶肥为全营养，离子态，不产生沉淀反应，也不会产生离子拮抗作用。且操作简单方便，但能根据脐橙的各生长阶段补充养分，能有效提高果实产量和品质。 【EN】The invention discloses a nutrition scheme suitable for navel orange fruiter water culture, which is characterized by comprising the following steps of: according to the growth characteristics of navel orange fruit bearing trees at each stage, an accurate fertilizer formula, concentration and fertilization frequency scheme is given, the fertilizer formula is 20-10-20 in the vegetative growth period, the fertilizer formula is 20-10-20 in the flowering and fruit setting period, the fertilizer formula is 17-4-17-4Ca-1Mg in the fruit expansion period, the fertilizer formula is 13-4-20-4Ca-3Mg in the fruit color transition period, the fertilizer formula is 20-10-20 after fruit picking, the fertilizer concentration is 1.0-1.5 in EC value, and the fertilizer is supplemented or replaced every 30-45 days in fertilization frequency. The water-soluble fertilizer used in the nutrition scheme of the invention is full-nutrient and ionic, does not produce precipitation reaction and ion antagonism. The operation is simple and convenient, but nutrients can be supplemented according to each growth stage of the navel oranges, and the yield and the quality of the fruits can be effectively improved.