Hardspace: Shipbreaker – How To Survive Radiation, Depressurization, And Other Hazards

Learn essential techniques to prevent joining the orbital debris field during spacecraft dismantling operations.

The profession of shipbreaking in Hardspace: Shipbreaker presents extreme occupational hazards, compounded by spacecraft designs featuring questionable safety implementations. Nuclear reactors, pressurized compartments, high-voltage electrical networks, and volatile fuel reservoirs create perfect storm conditions for catastrophic failures. A single miscalculation can transform valuable salvage into furnace fodder, triggering corporate clone activation protocols from Lynx Corporation’s biological reserves.

This comprehensive guide details the primary lethal systems encountered during spacecraft disassembly and proven mitigation methodologies. While gravitational forces remain the persistent threat throughout operations, understanding vessel subsystem behaviors dramatically increases shift survival probabilities.

The environment is hostile by default, but a delicate touch can avoid most disasters.

While explosive depressurization terminology may seem benign from within pressurized suits, the violent atmospheric expulsion presents genuine lethal consequences. This phenomenon occurs when cabin-contained atmosphere undergoes rapid vacuum exposure, creating projectile hazards from any unsecured components. Personnel positioned within decompression pathways risk catastrophic suit breaches from high-velocity impacts.

Secure vessel entry mandates exclusive airlock utilization, maintaining atmospheric integrity through sequential chamber cycling. Access requires manual lever operation—apply controlled rotation force rather than aggressive manipulation that could damage door mechanisms and force uncontrolled decompression.

Internal atmospheric regulation units resemble terrestrial window air conditioning systems, typically adjacent to airlocks. Activation initiates controlled atmosphere venting, with successful depressurization indicated by “Unpressurized” status on interface displays. Critical reminder: multiple isolated cabin sections require individual regulator attention—never assume single unit activation ensures vessel-wide safety.

In space, no one can hear you botch the job.

In space, no one can hear you botch the job.

Hardspace: Shipbreaker provides preliminary reactor presence alerts, but radiation interference with heads-up displays serves as reliable proximity detection. Reactor compartment prioritization proves critical—damage-induced detonations can obliterate significant ship sections. Strategic approach suggests initial reactor neutralization to reduce overall mission risk profile.

Critical reactor consideration: fuel line purging prerequisites before extraction. Procedures vary between reactor models, typically involving lever mechanisms or computer terminal interfaces. Some systems permit immediate activation, while others require keycard retrieval from cockpit-adjacent areas.

Fuel line flushing initiates reactor meltdown sequences, mandating barge disposal within strict time constraints. Preemptive path clearance between reactor location and barge destination represents essential preparation before engaging purge sequences.

Electrical network management requires systematic isolation before conducting cutting operations near powered conduits. Fuel pump systems demand similar caution—improper handling can trigger cascading system failures. Environmental control units maintain life support functions but become hazards if compromised during disassembly procedures.

For comprehensive spacecraft operation mastery, consult our Complete Guide to advanced techniques. Weapon system specialists should reference our Weapons Unlock protocols, while tactical considerations benefit from our Class Guide for role optimization.

No reproduction without permission：SeeYouSoon Game Club » Hardspace: Shipbreaker – How To Survive Radiation, Depressurization, And Other Hazards Master ship dismantling safety protocols to survive hazardous spacecraft systems and maximize salvage profits