TidesOfCreation create

Author: ChuijkYahus

projects/1.21/assets/tides-of-creation/create_and_essence/lang/en_us.json

@@ -0,0 +1,17 @@
+{
+  "data_tablet.tabs.kinetic_studies.name": "Kinetic Studies",
+
+  "data_tablet.pages.andesite_alloying.name": "Andesite Alloying",
+  "data_tablet.pages.andesite_alloying.stage0.text": "The Ancients' records speak of other engineers — ones who harnessed not Essence, but rotation. Their work parallels yours in unexpected ways. Andesite Alloy is the bedrock of their engineering — a humble but remarkably strong composite of stone and iron, bound under Essence-accelerated compression.\n\nTo begin your kinetic studies, feed **Andesite** and an **Iron Nugget** into the Synthesizer. Once you have successfully synthesized the alloy, further applications will be revealed.",
+  "data_tablet.pages.andesite_alloying.unlocked.text": "Success! The Andesite Alloy is remarkably strong and versatile. Now that you've mastered its basic formation, you can replicate it with ease. This success has also revealed the possibility of refining Zinc, and the basics of Shaft Fabrication.",
+
+  "data_tablet.pages.zinc_refinement.name": "Zinc Refinement",
+  "data_tablet.pages.zinc_refinement.page1.text": "Zinc ore, when exposed to Bonding Powder and a wash of Essence, can be purified far more efficiently than conventional smelting. The Bonding Powder acts as a mineral flux, and Essence as the activating catalyst — yielding two ingots where a furnace would produce one.\n\n*HINT: Mastering Zinc Refinement will later lead to the discovery of Brass Alloying.*",
+
+  "data_tablet.pages.brass_alloying.name": "Brass Alloying",
+  "data_tablet.pages.brass_alloying.page1.text": "Brass is the lifeblood of precision Kinetic Engineering — a copper-zinc alloy with properties neither metal possesses alone. The Synthesizer, given adequate Essence, can fuse zinc and copper at a molecular level, producing an alloy of exceptional workability.",
+
+  "data_tablet.pages.cogworks.name": "Shaft Fabrication",
+  "data_tablet.pages.cogworks.page1.text": "Rotation is transmitted through shafts. Simple, elegant, and unbreakable in principle. With Andesite Alloy and shaped timber, the Fabricator can produce Shafts — the fundamental vocabulary of any kinetic machine.",
+  "data_tablet.pages.cogworks.page2.text": "Shafts are listed below."
+}

projects/1.21/assets/tides-of-creation/create_and_essence/lang/zh_cn.json

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+{
+  "data_tablet.tabs.kinetic_studies.name": "动能系统研究",
+
+  "data_tablet.pages.andesite_alloying.name": "安山岩的合金铸造",
+  "data_tablet.pages.andesite_alloying.stage0.text": "古代人的记录里提到过其他工程师——他们使用的不是汐流，而是旋转力。从某种角度来说，他们的工作与你的研究一样耀眼。安山合金是他们工程体系的基石——这种材料由石头和铁在汐能加速的压缩下合金而来，不算显眼，但极为强韧。\n\n开始动能系统的研究之前，先往融合室里放入**安山岩**和一颗**铁粒**。而在你成功融合出这种合金之后，后续的应用就应当会显现。",
+  "data_tablet.pages.andesite_alloying.unlocked.text": "成功了！安山合金确实极为强韧和实用。既然已经掌握了它的基础制造方法，重复之前的步骤就应该不算难事。这一成果同样揭示了精炼锌的可能性，亦展示了与传动杆构装有关的基础知识。",
+
+  "data_tablet.pages.zinc_refinement.name": "锌的精炼",
+  "data_tablet.pages.zinc_refinement.page1.text": "在系合粉与汐流的冲刷下，锌矿石的纯化效率会得到提升，高于传统的烧炼加工法。系合粉相当于助熔剂，汐流则是活化催化剂——如此操作会产出两个金属锭，在普通的熔炉中则只会产出一个。\n\n*提示：掌握锌的精炼法是进一步发现黄铜合金铸造的前提。*",
+
+  "data_tablet.pages.brass_alloying.name": "黄铜的合金铸造",
+  "data_tablet.pages.brass_alloying.page1.text": "黄铜由铜和锌合金而来，拥有这两种金属原本不具备的性质，是高精度动能系统工程的血液。为融合室注入足量汐能，即可在原子层面上熔合锌与铜，产出可加工性及其优良的合金。",
+
+  "data_tablet.pages.cogworks.name": "传动杆的构装",
+  "data_tablet.pages.cogworks.page1.text": "旋转力经由传动杆传递——简单、优雅，使用得当便完全不会断裂。使用安山合金和经过塑形的木材，即可在构装器中制造传动杆。它是所有动能机械最基础的组件。",
+  "data_tablet.pages.cogworks.page2.text": "传动杆的制造方法见下。"
+}