Begin from the original form of torture and become immortal

Chapter 1430 Researching Dragon Balls
However, for those who know Tony Stark, this device means endless possibilities and power.

It was only then that Justin Hammer noticed the device on Ivan Vanko's chest.

He recognized this thing. Wasn't it the arc-shaped arc reactor that Tony Stark showed off?
That magical device that can provide unlimited energy for the Iron Man suit?

There was a glimmer of surprise and greed in his eyes.

"what do you want?"

Justin Hammer asked quickly, his voice trembling with excitement.

He knew that he might be about to get a chance to change his destiny, a chance to surpass Tony Stark.

Ivan Vanko looked at Justin Hammer's urgent eyes, which was exactly what he needed. He needed a stupid and greedy partner to carry out his revenge plan.

"I need you to provide funds and resources," Ivan Vanko said, "as well as a legal identity and laboratory. I need these to perfect my power armor technology and ensure that it can exert its maximum power."

Justin Hammer listened to Ivan Vanko's conditions and weighed the pros and cons in his mind.

He knew that these conditions were not harsh and could even be considered reasonable.

Moreover, once he obtains power armor technology, he will be able to surpass Tony Stark and become the overlord of the weapons world.

"No problem!" Justin Hammer agreed without hesitation, "I can provide everything you need! As long as you can help me make power armor!"

Ivan Vanko looked at Justin Hammer's excited eyes and couldn't help but sneer in his heart.

He knew that this stupid guy had fallen completely into his trap.

Now, he just needs to wait for the right time to implement his revenge plan.

Hammer Industries, a name that is often overshadowed by Stark Industries and Ares Industries in the public eye, actually occupies a pivotal position in the American military industry landscape.

Although its performance in the original plot is a bit funny, as if it is a clown, but if you peel off this layer of humorous coat, Hammer Industries not only has a profound foundation, but is also a leader in the field of global light weapons manufacturing. At the same time, it has also demonstrated extraordinary strength in some high-tech fields.

Although Hammer Industries' product line is mainly light weapons, such as pistols, rifles, machine guns and various types of ammunition, its research and development in small missile systems should not be underestimated.

Although these missile systems are not as powerful as heavy strategic weapons, they play a vital role at the tactical level, especially in urban warfare, counter-terrorism operations and rapid reaction forces. Hammer's small missiles have won wide acclaim for their high accuracy and ease of portability.

However, the true strength of Hammer Industries goes far beyond this.

Walking into its highly confidential R&D center, you will find that it is filled with all kinds of cutting-edge scientific instruments, like a miniature scientific research palace.

Mass spectrometers, precision equipment used to analyze the composition and structure of matter, can be seen everywhere in Hammer Industries' laboratories.

Quadrupole mass spectrometer, with its high sensitivity and high resolution, has become the first choice for analyzing trace components in complex mixtures.

The time-of-flight mass spectrometer is unique in the field of rapid detection with its ultra-fast analysis speed, while the ion trap mass spectrometer, with its ability to capture and maintain ions for a long time, makes it possible to conduct in-depth research on the chemical properties of substances. In terms of spectrometers, Hammer Industries is also equipped with a full range of equipment.

UV-Vis spectrophotometer can quantitatively analyze the chemical composition of a sample by measuring the absorption or reflection of ultraviolet and visible light by a substance.

Fourier transform infrared spectrometer (FTIR) uses the absorption characteristics of infrared light by a substance to reveal its molecular structure and chemical bond information. It is an indispensable analytical tool in the fields of materials science, chemistry, biology, etc.

X-ray fluorescence spectrometer (XRF) can non-destructively analyze the elemental composition of solid samples and is widely used in environmental monitoring, archaeological research, and art authentication.

As a powerful tool for separating and analyzing complex mixtures, chromatographs are also widely used in Hammer Industries.

Liquid chromatograph (LC) and gas chromatograph (GC) are suitable for the separation and analysis of compounds with different polarities and boiling point ranges, respectively.

Their combined technologies, such as liquid chromatography-mass spectrometry (LC-MS) and gas chromatography-mass spectrometry (GC-MS), have maximized the separation and identification capabilities, and can provide both structural information and quantitative data of compounds. They are key technologies in many fields, including drug development, environmental monitoring, and food safety.

Electron microscopes, as a window for exploring the microscopic world, are also used by Hammer Industries.

The scanning electron microscope (SEM), with its high resolution and large depth of field, is an ideal tool for observing the surface morphology of materials and analyzing element distribution. The transmission electron microscope (TEM) can penetrate thinner samples and directly observe the atomic arrangement inside them. It is an important means to study the microstructure of materials, crystal defects and the properties of nanomaterials.

Under Ivan Vanko's operation, the crystal structure of Dragon Ball was first analyzed using X-ray diffractometer (XRD).

The working principle of XRD technology is based on Bragg's law, that is, when X-rays are incident on the crystal surface at a specific angle, they will be scattered by the atomic layer inside the crystal to form a specific diffraction pattern.

These patterns are as unique as fingerprints and can reveal the internal structure of the crystal, including the size and shape of the unit cell and the relative positions of atoms.

This is crucial to understanding the physical nature of the seemingly supernatural objects known as Dragon Balls.

Ivan used advanced XRD equipment to perform multi-angle, high-precision scans of the Dragon Balls and collected a large amount of diffraction data.

Through complex algorithm processing, these data were converted into three-dimensional crystal models, revealing the existence of an unprecedented lattice arrangement inside the Dragon Ball, whose complexity far exceeds that of any naturally formed mineral on Earth.

This extremely complex crystal structure not only challenges the existing knowledge of materials science, but also provides strong evidence for the extraterrestrial origin of Dragon Ball.

Ivan realizes that if the Dragon Ball is indeed the product of an alien civilization, then its crystal structure may contain knowledge and technology that surpasses human current technology.

This possibility inspired him to explore further and also made him look forward to the secrets that might be hidden behind the Dragon Balls.

Of course, there is also a possibility that it is from the earth, but it is man-made.

But this possibility is too low.

Because it means that the technological capabilities of the people who created Dragon Balls surpassed the entire world.

(End of this chapter)