Method for designing formula of water-based printing ink based on low-field nuclear magnetic resonance

What is claimed is: 1. A method for designing a formula of a water-based printing ink based on low-field nuclear magnetic resonance (LF-NMR), comprising the following steps: (1) acquiring LF-NMR echo signals of the water-based printing ink by using a Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence to obtain an echo attenuation curve, wherein the CPMG pulse sequence has the following parameters: 90° pulse width P1: 8.0 μs, 180° pulse width P2: 15 μs, waiting time: 12,000.00 ms, analog gain 20.0, digital gain: 3, preamp gain: 1, number of scans: 4, number of echoes: 12,000, receiver bandwidth: 100 KHz, and radio frequency delay: 0.150 ms; (2) deriving a spectral curve of a transverse relaxation time T 2 by using an inversion algorithm thereof based on the echo attenuation curve; (3) determining moisture retention and/or fluidity of the water-based printing ink according to a peak area and a displacement of immobile water and free water in the spectral curve of the transverse relaxation time T 2 ; stopping adjusting the formula of the water-based printing ink if the moisture retention and/or fluidity meets a target value; proceeding to step (4) if the moisture retention and/or fluidity does not meet the target value; and (4) adjusting the formula of the water-based printing ink, and returning to step (1). 2. A method for selecting a water-based printing ink based on low-field nuclear magnetic resonance (LF-NMR), comprising the following steps: (1) acquiring LF-NMR echo signals of one or more water-based printing inks by using a Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence to obtain an echo attenuation curve, wherein the CPMG pulse sequence has the following parameters: 90° pulse width P1: 8.0 μs, 180° pulse width P2: 15 μs, waiting time: 12,000.00 ms, analog gain: 20.0, digital gain: 3, preamp gain: 1, number of scans: 4, number of echoes: 12,000, receiver bandwidth: 100 KHz, and radio frequency delay: 0.150 ms; (2) deriving a spectral curve of a transverse relaxation time T 2 by using an inversion algorithm thereof based on the echo attenuation curve; and (3) determining moisture retention and/or fluidity of the water-based printing inks according to a peak area and a displacement of immobile water and free water in the spectral curve of the transverse relaxation time T 2 , and selecting a water-based printing ink with moisture retention and/or fluidity meeting a target value. 3. A method for selecting a wetting agent based on low-field nuclear magnetic resonance (LF-NMR), comprising the following steps: (1) acquiring LF-NMR echo signals of an aqueous solution of one or more wetting agents by using a Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence to obtain an echo attenuation curve, wherein the CPMG pulse sequence has the following parameters: 90° pulse width P1: 8.0 μs, 180° pulse width P2: 15 μs, waiting time: 12,000.00 ms, analog gain: 20.0, digital gain: 3, preamp gain: 1, number of scans: 4, number of echoes: 12,000, receiver bandwidth: 100 KHz, and radio frequency delay: 0.150 ms; (2) deriving a spectral curve of a transverse relaxation time T 2 by using an inversion algorithm thereof based on the echo attenuation curve; and (3) determining moisture retention and/or fluidity of the wetting agent according to a peak area and a displacement of immobile water and free water in the spectral curve of the transverse relaxation time T 2 , and selecting a wetting agent with moisture retention and/or fluidity meeting a target value. 4. The method according to claim 1 , wherein step (1) further comprises drying the water-based printing ink at 55-65° C. before acquiring the LF-NMR echo signals. 5. The method according to claim 1 , wherein in step (4), the adjusting the formula of the water-based printing ink comprises changing a type and/or amount of a wetting agent. 6. The method according to claim 2 , wherein step (1) further comprises drying the water-based printing ink at 55-65° C. before acquiring the LF-NMR echo signals. 7. The method according to claim 3 , wherein step (1) further comprises drying the wetting agent at 55-65° C. before acquiring the LF-NMR echo signals. 8. The method according to claim 3 , wherein in step (1), the aqueous solution of the wetting agent has a concentration of 5-30 wt %.