Part of RBMK QMAW

src/main/resources/assets/hbm/manual/rbmk/absorber.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_absorber", 1, 0],
 	"trigger": [["hbm:tile.rbmk_absorber"]],
 	"title": {
-		"en_US": "RBMK Boron Neutron Absorber"
+		"en_US": "RBMK Boron Neutron Absorber",
+		"zh_CN": "RBMK硼中子吸收器"
 	},
 	"content": {
-		"en_US": "The absorber simply blocks neutrons from passing. Neutrons that leave the [[RBMK]] will cause radiation to leak out, while this can be prevented by simply blocking off the entire side with solid blocks, the absorber has the small advantage of being able to transfer heat. While it's rarely useful to use an absorber instead of a [[reflector|RBMK Tungsten Carbide Neutron Reflector]], some high-heat reactor designs with linear or exponential fuels may benefit from using absorbers to separate incompatible fuel rods."
+		"en_US": "The absorber simply blocks neutrons from passing. Neutrons that leave the [[RBMK]] will cause radiation to leak out, while this can be prevented by simply blocking off the entire side with solid blocks, the absorber has the small advantage of being able to transfer heat. While it's rarely useful to use an absorber instead of a [[reflector|RBMK Tungsten Carbide Neutron Reflector]], some high-heat reactor designs with linear or exponential fuels may benefit from using absorbers to separate incompatible fuel rods.",
+		"zh_CN": "中子吸收器会直接阻止中子通过。离开[[RBMK]]的中子会造成 辐射，虽然用固体方块把整个反应堆的边缘包住就可以挡住辐射，但中子吸收 器有一个小优点——可以传递热量。虽然很多情况下[[中子反射器|RBMK Tungsten Carbide Neutron Reflector]]比中子吸 收器更有用，但在某些含有线性或指数型燃料棒的高热量反应堆设计中，用中 子吸收器分隔不能相邻的燃料棒也不失为一种选择。"
 	}
 }

src/main/resources/assets/hbm/manual/rbmk/autoloader.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_autoloader", 1, 0],
 	"trigger": [["hbm:tile.rbmk_autoloader"]],
 	"title": {
-		"en_US": "RBMK Autoloader"
+		"en_US": "RBMK Autoloader",
+		"zh_CN": "RBMK燃料自动装填机"
 	},
 	"content": {
-		"en_US": "The autoloader is an advanced component of an [[RBMK]] that can be placed on top of [[fuel channels|RBMK Fuel Channel]]. The autoloader has two inventory grids, one for fresh fuel, and one for spent fuel, as well as a selector for the fuel depletion percentage which can be changed in 5% increments. If the [[fuel rod's|RBMK Fuel Rod]] depletion of the connected fuel channel exceeds the configured percentage, the autoloader will drop down, remove the spent fuel and insert a new fuel rod. The autoloader can be automated using hoppers or conveyors, the item access ports are on the very top."
+		"en_US": "The autoloader is an advanced component of an [[RBMK]] that can be placed on top of [[fuel channels|RBMK Fuel Channel]]. The autoloader has two inventory grids, one for fresh fuel, and one for spent fuel, as well as a selector for the fuel depletion percentage which can be changed in 5% increments. If the [[fuel rod's|RBMK Fuel Rod]] depletion of the connected fuel channel exceeds the configured percentage, the autoloader will drop down, remove the spent fuel and insert a new fuel rod. The autoloader can be automated using hoppers or conveyors, the item access ports are on the very top.",
+		"zh_CN": "RBMK燃料自动装填机是一种高级的[[RBMK]]部件， 需要放置在[[燃料通道|RBMK Fuel Channel]]的顶部。燃料自动装填机的物品栏内有两组格子， 一组用于储存新燃料，另一组用于储存使用过的燃料；其GUI中还有一个用 于设定燃料消耗程度的框，分度值为5%。若下方[[燃料棒|RBMK Fuel Rod]]的消耗 程度超过了设定的比例，燃料自动装填机就会下降并拔出使用过的燃料棒，同 时插入新燃料棒。燃料自动装填机可通过漏斗或传送带自动化，其物品接口位 于最顶部。"
 	}
-}
+}

src/main/resources/assets/hbm/manual/rbmk/blank.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_blank", 1, 0],
 	"trigger": [["hbm:tile.rbmk_blank"]],
 	"title": {
-		"en_US": "RBMK Structural Column"
+		"en_US": "RBMK Structural Column",
+		"zh_CN": "RBMK反应堆结构柱"
 	},
 	"content": {
-		"en_US": "RBMK structural columns, often called \"blanks\", are components of the [[RBMK]] that allow neutrons to pass and which conduct heat, but otherwise do not serve any added function. They are commonly used as filler in setups that are not very dense, and for making reactors more aesthetically pleasing."
+		"en_US": "RBMK structural columns, often called \"blanks\", are components of the [[RBMK]] that allow neutrons to pass and which conduct heat, but otherwise do not serve any added function. They are commonly used as filler in setups that are not very dense, and for making reactors more aesthetically pleasing.",
+		"zh_CN": "RBMK结构柱是一种[[RBMK]]部件，允许中子通过且能够传导 热量，除此之外没有功能。其常在不太紧凑的反应堆设计中用作填充物，也可 用于使反应堆更加美观。"
 	}
 }

src/main/resources/assets/hbm/manual/rbmk/boiler.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_boiler", 1, 0],
 	"trigger": [["hbm:tile.rbmk_boiler"]],
 	"title": {
-		"en_US": "RBMK Steam Channel"
+		"en_US": "RBMK Steam Channel",
+		"zh_CN": "RBMK蒸汽管道"
 	},
 	"content": {
-		"en_US": "The RBMK steam channel is the primary way for the [[RBMK]] to be cooled, and to extract energy from it. The steam channel will use as much water as it can at once to cool itself down to the target temperature, i.e. the temperature of the steam type that is configured in the compressor. Since [[fuel channels|RBMK Fuel Channel]] are the only parts in the RBMK that actively heat up, it's recommended to put the steam channels as close as possible to them. Like most RBMK components, the steam channels do not block neutrons, so they can be connected cardinally to fuel channels.<br><br>The compressor settings allow higher density steam to be output, however, higher density steam is hotter, which means that the steam channel's ability to cool is limited. Despite this, higher density steam means that more water can flow through the channel, increasing the amount of cooling that can be done. In practice, most reactors will work fine with regular uncompressed steam. The compressor can be configured remotely via the [[console|RBMK Console]].<br><br>The steam channel only accepts water from the bottom and outputs steam at the top. Using an [[RBMK steam connector|RBMK Steam Connector]], both fluids can be handled from the bottom."
+		"en_US": "The RBMK steam channel is the primary way for the [[RBMK]] to be cooled, and to extract energy from it. The steam channel will use as much water as it can at once to cool itself down to the target temperature, i.e. the temperature of the steam type that is configured in the compressor. Since [[fuel channels|RBMK Fuel Channel]] are the only parts in the RBMK that actively heat up, it's recommended to put the steam channels as close as possible to them. Like most RBMK components, the steam channels do not block neutrons, so they can be connected cardinally to fuel channels.<br><br>The compressor settings allow higher density steam to be output, however, higher density steam is hotter, which means that the steam channel's ability to cool is limited. Despite this, higher density steam means that more water can flow through the channel, increasing the amount of cooling that can be done. In practice, most reactors will work fine with regular uncompressed steam. The compressor can be configured remotely via the [[console|RBMK Console]].<br><br>The steam channel only accepts water from the bottom and outputs steam at the top. Using an [[RBMK steam connector|RBMK Steam Connector]], both fluids can be handled from the bottom.",
+		"zh_CN": "RBMK蒸汽管道是冷却[[RBMK]]和通过RBMK发电的主要方式。 蒸汽管道会使用尽可能多的水将自身冷却至目标温度（即设定的蒸汽压缩等级 对应的蒸汽的温度）。[[燃料通道|RBMK Fuel Channel]]是RBMK中唯一能够主动产热的部件， 因此建议将蒸汽管道放置在距离燃料通道尽量近的地方。与大多数RBMK部件 类似，蒸汽管道不会阻挡中子，因此其可以与燃料通道直接接触。<br><br>通过调整蒸汽压缩等级可以使蒸汽管道输出高等级蒸汽，但高等级蒸汽温度更 高，进而会使得蒸汽管道的冷却能力受到限制；然而，蒸汽压缩等级更高也意 味着蒸汽管道中的水流量更大，这又提高了冷却总量。在实际操作中，大多数 反应堆都能在使用普通蒸汽时正常工作。蒸汽压缩等级可通过[[控制台|RBMK Console]]远程调整。<br><br>蒸汽管道只从底部接收水并从顶部输出蒸汽，使用[[RBMK蒸汽导出器|RBMK Steam Connector]]可 使两种流体都能从底部输入输出。"
 	}
 }

src/main/resources/assets/hbm/manual/rbmk/console.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_console", 1, 0],
 	"trigger": [["hbm:tile.rbmk_console"]],
 	"title": {
-		"en_US": "RBMK Console"
+		"en_US": "RBMK Console",
+		"zh_CN": "RBMK石墨式反应堆控制台"
 	},
 	"content": {
-		"en_US": "The RBMK console allows monitoring and control over an [[RBMK]] over a 15x15 block area. While technically optional, it is usually an important part in most successful RBMKs. To use the console, shift-click the central position of the RBMK with an RBMK linker, then shift-click the console.<br><br>The console has a display that shows fuel status and component heat as part of its model, this alone allows the reactor's status to be determined easily from afar, even without using the GUI. In addition, the console has six displays which can be configured to show various infos. To configure, open the GUI, select the columns that should be monitored, click the \"Assign selected columns\" button, and then click on the monitor type button until it shows the desired info.<br><br>On the bottom, the console's GUI also shows a graph of the total neutron flux that is being detected by the [[fuel channels|RBMK Fuel Channel]], making it easy to detect changes such as a drop in reaction due to fuel depletion or hazardous reaction spikes.<br><br>In the center, there are colored buttons which can quickly select all [[control rods|RBMK Control Rods]] in that color group with left click, or assign all selected control rods a color group with right click. In addition, there is a small text field that can set the control rod extraction level of all selected control rods. Finally, the small white/red gradient button allows to cycle between the compression settions on selected [[steam channels|RBMK Steam Channel]]."
+		"en_US": "The RBMK console allows monitoring and control over an [[RBMK]] over a 15x15 block area. While technically optional, it is usually an important part in most successful RBMKs. To use the console, shift-click the central position of the RBMK with an RBMK linker, then shift-click the console.<br><br>The console has a display that shows fuel status and component heat as part of its model, this alone allows the reactor's status to be determined easily from afar, even without using the GUI. In addition, the console has six displays which can be configured to show various infos. To configure, open the GUI, select the columns that should be monitored, click the \"Assign selected columns\" button, and then click on the monitor type button until it shows the desired info.<br><br>On the bottom, the console's GUI also shows a graph of the total neutron flux that is being detected by the [[fuel channels|RBMK Fuel Channel]], making it easy to detect changes such as a drop in reaction due to fuel depletion or hazardous reaction spikes.<br><br>In the center, there are colored buttons which can quickly select all [[control rods|RBMK Control Rods]] in that color group with left click, or assign all selected control rods a color group with right click. In addition, there is a small text field that can set the control rod extraction level of all selected control rods. Finally, the small white/red gradient button allows to cycle between the compression settions on selected [[steam channels|RBMK Steam Channel]].",
+		"zh_CN": "RBMK石墨式反应堆控制台可以监测并控制15x15方块范围内的[[RBMK]] 反应堆部件。RBMK控制台在技术上不是必需的，但通常是绝大多数成功的 RBMK的重要组成部分。要使用RBMK控制台，需要先用RBMK连接器 潜行右击反应堆的中心位置，再潜行右击控制台。<br><br>控制台的模型上具有一个显示燃料状态和反应堆部件温度的屏幕，这个屏幕使 反应堆的状态可以很容易地从远处监测，甚至完全不用打开GUI就能做到。 此外，控制台还含有六个可以显示多种信息的屏幕，其显示内容可以配置；若 要配置其显示内容，则需要打开GUI并选择需要监测的柱体，之后点击“绑 定所选柱体”按钮，再点击检测项目按钮，直到出现想要的内容。<br><br>控制台GUI底部还有一个显示[[燃料通道|RBMK Fuel Channel]]检测到的总中子通量的图表，通 过这个图表可以很容易监测到燃料消耗导致的反应剧烈程度下降，或是危险的 中子通量激增。<br><br>对GUI中部的彩色按钮点击左键，可以选择所有相应颜色的[[控制棒|RBMK Control Rods]]， 点击右键则可以将选定的控制棒分配至相应颜色的组别。彩色按钮下方的文本 框可用于设置所有选定的燃料棒的抽出程度。最后一个红白渐变色按钮可以切 换选定的[[蒸汽管道|RBMK Steam Channel]]的压缩等级。"
 	}
 }

src/main/resources/assets/hbm/manual/rbmk/controlauto.json

@@ -3,9 +3,11 @@
 	"icon": ["hbm:tile.rbmk_control_auto", 1, 0],
 	"trigger": [["hbm:tile.rbmk_control_auto"]],
 	"title": {
-		"en_US": "RBMK Automatic Control Rods"
+		"en_US": "RBMK Automatic Control Rods",
+		"zh_CN": "RBMK反应堆自动控制棒"
 	},
 	"content": {
-		"en_US": "Automatic control rods, unlike the standard [[RBMK control rods|RBMK Control Rods]], cannot be controlled manually, instead they can be configured to adjust their insertion level based on their own component heat. A minimum and maximum heat, along with a minimum and maximum level which correspond to those values can be set, as well as a curve which defines the behavior between those levels.<br><br>It is possible, but not recommended, to have a reactor that runs solely on automatic control rods. They do see occasional use for smoothing out reaction spikes and for controlling the neutron sources on subcritical reactors."
+		"en_US": "Automatic control rods, unlike the standard [[RBMK control rods|RBMK Control Rods]], cannot be controlled manually, instead they can be configured to adjust their insertion level based on their own component heat. A minimum and maximum heat, along with a minimum and maximum level which correspond to those values can be set, as well as a curve which defines the behavior between those levels.<br><br>It is possible, but not recommended, to have a reactor that runs solely on automatic control rods. They do see occasional use for smoothing out reaction spikes and for controlling the neutron sources on subcritical reactors.",
+		"zh_CN": "自动升降的控制棒，与[[RBMK反应堆控制棒|RBMK Control Rods]]不同，其不能手动控制， 而是需要进行设定，设定后即可根据自身温度调整控制棒插入程度。可以设定 的项目有最低温度和最高温度、对应的控制棒最低和最高插入程度，以及定义 其在两个极值之间行为的曲线。<br><br>尽管有可能搭建出一个只使用自动控制棒的反应堆，但不建议这么做。自动控 制棒偶尔会用于抹平中子通量尖峰和在亚临界反应堆中控制中子源。"
 	}
 }