The durability tests of the iPhone 15 Pro Max reveal a mix of strong points and notable weaknesses
Durability testing of the new flagship iPhone 15 Pro Max drew attention from a popular reviewer, a video blogger known for detailed device breakdowns. The tests uncovered a blend of performance outcomes across different materials and scenarios, highlighting both resilience and fragility in specific areas.
The first phase looked at glass hardness. The device’s glass showed remarkable resistance, remaining nearly unmarred under a tool rated at 6 on the Mohs scale. In comparison, several other devices placed on the same testing surface sustained noticeably more pronounced damage under equivalent pressure. This result underscored the iPhone 15 Pro Max’s strong scratch resistance relative to its peers in the same test lineup.
Next, the screen underwent a heat exposure demonstration. A cigarette lighter was applied to the screen, and it remained free from visible heat marks, signaling solid heat tolerance for the display surface in that moment. The blogger then used a gas stove to apply heat to the device’s frame. After an initial warm response, heat traces emerged on the screen while the titanium frame showed no signs of damage, suggesting robustness in the frame during high-heat stress, at least in the conditions observed.
In a later bending assessment, the iPhone 15 Pro Max faced disappointment. Although the titanium frame effectively resisted bending attempts, the rear glass cracked immediately once force was applied. This result exposed a potential vulnerability in the device’s back panel under bending stress, even when the core frame remained intact.
Earlier observations noted that the iPhone 15 Pro had shown weaker autonomy among the latest Apple smartphones, marking a point of comparison for overall performance. The series of tests paints a picture of a device with excellent surface resilience in some respects, coupled with a fragility in others that users may want to weigh when considering long-term durability and practical daily use.
For viewers and prospective buyers, these findings emphasize the importance of understanding material behavior under different stressors. The glass and frame composition deliver notable advantages in scratch and heat resistance, while the back panel’s vulnerability during bending suggests that practical usage—such as carrying the device in pockets or bags with pressure—could reveal limits to durability that aren’t immediately obvious from cosmetic wear tests alone. The overall verdict positions the iPhone 15 Pro Max as a high-performing option with specific durability caveats that users should consider alongside features like camera quality, processing power, and battery life. This assessment comes from the creator behind the JerryRigEverything channel, and reflects a methodical approach to evaluating modern smartphones for the everyday Canadian and United States consumer, while keeping a clear eye on how advancements compare with previous Apple models and competing devices. For a thorough understanding, viewers are encouraged to weigh the device against personal use cases and durability expectations, recognizing that real-world results can vary with conditions and handling.