You can bore a true cylinder (with much effort) without a lathe. Or rather, to do so you will have to invent a lathe-like device, which is amusing. Its how cannon were bored, eventually, spun on centers. Its also the case if you need to make a true piston.
But to make any engine, or any mechanism with true bearings (like your printing presses), you need a lathe.
My point is that modern technology relies on a vast network of discoveries, methods, and inventions. While the lathe is an important tool, it is not singularly responsible for technological progress.
If civilization were reduced to Stone Age technology and needed to rebuild, it would take a lifetime to re-establish the foundational knowledge and infrastructure required to reach modern technological levels. Even with a large, well-educated team, access to knowledge, and abundant natural resources, rebuilding to today’s level of technology would likely take at least two centuries under ideal conditions. A powered metal lathe could potentially be developed within 50 years if everything proceeded smoothly.
In this scenario, the lathe would remain a crucial manufacturing tool throughout the rebuilding process but would gradually become less central as more advanced machinery emerged. Within 80-150 years, milling and grinding machines would begin to take over tasks requiring flat surfaces, complex shapes, and precise finishes. By 150-200 years, CNC machines would significantly reduce the need for manual lathing by automating multi-axis machining with greater accuracy and efficiency. During this same period, additive manufacturing (3D printing) would likely emerge, enabling the creation of complex parts without traditional cutting methods—though it would complement rather than fully replace subtractive processes.
While lathes would continue to be valuable for cylindrical work, advanced machines would provide greater versatility and productivity, gradually assuming much of the manufacturing workload. As is true today, lathes would still be preferred for applications where rotational symmetry and speed are critical. Automated systems, such as CNC machines, would offer further advantages by reducing human error, enabling continuous operation, and increasing production speed. These innovations would also drive economies of scale, lowering costs and supporting broader economic growth.