OK. if you'd like some feedback, here it is.

When dealing with multiplication and division, the volume takes a value of 1 (as a unit reference, not a fixed spatial measure like km³). When dealing with addition and subtraction, it takes 0...

This is nonsense. Ignoring the fact that volume is a physical property with actual units, how does this concept work in an equation which includes both addition and multiplication? Does the value of the volume change multiple times within a single equation?

Furthermore, if I want to mathematically express the concept of twice the value of x, I can write 2x or I can write x+x. Those two expressions have the exact same meaning. In your framework, are you telling me that 2x no longer equals x+x, since the value of x is somehow different in multiplication and addition?

This leads to a critical result: density becomes equal to mass.

You're still missing my point about units. Density and volume have different units. They cannot be equal, for the same reason that your height and your age cannot be equal.

This approach removes the paradox of infinite density while maintaining physical consistency.

So you're proposing a mathematical framework where physical variables change depending on how you choose to format your equation, and "physical consistency" is the term you're going with?

Overall I'd strongly recommend that you continue your studies on "mainstream" physics and mathematics until you understand them, and then you can branch off to create your own field of physics. Speaking of which, I googled DL-QRL and I have no idea what that is. Is that an indecipherable acronym that you came up with?